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base: comfyanonymous:pysssss/glsl-blueprints
Branches Tags
comfyanonymous:master comfyanonymous:pysssss/glsl-blueprints comfyanonymous:automation/comfyui-frontend-bump comfyanonymous:fix/api-nodes/vidu-pricing comfyanonymous:glsl-cloud-testing comfyanonymous:image-crop comfyanonymous:color-correct-node comfyanonymous:christian-byrne-patch-3 comfyanonymous:painter-node comfyanonymous:color-correct comfyanonymous:fix/breaking-change-precompute-freqs-cis-import comfyanonymous:v3/nodes_lt_upsampler comfyanonymous:jk/requirements-files comfyanonymous:luke-mino-altherr/asynchronous-scanning comfyanonymous:ben/release-webhook-dispatch-desktop comfyanonymous:prs/dynamic-vram-fixes/windows-unbacked-virt-bug comfyanonymous:jk/optional-switch comfyanonymous:si/sync-test comfyanonymous:jk/control-after-generate comfyanonymous:feat/core/expected_outputs comfyanonymous:feat/api-nodes/11labs-music comfyanonymous:v3/model_merging comfyanonymous:partition-advanced-widgets comfyanonymous:rename-mahiro comfyanonymous:blueprint-index-filtering comfyanonymous:essentials-category comfyanonymous:feat/model-placeholder comfyanonymous:cb/tdd-002-process-isolation comfyanonymous:luke-mino-altherr/asset-database-queries-refactor comfyanonymous:feature/frontend-hardcoded-replacements comfyanonymous:remove-cache-busting comfyanonymous:toolkit-nodes/aspect-ratio-blueprint comfyanonymous:assets-redo-part2 comfyanonymous:pysssss/color-to-int-node comfyanonymous:pysssss/basic-glsl-shader-node-glfw comfyanonymous:jk/remove-unused-code comfyanonymous:cbyrne/text-preview-support comfyanonymous:assets-redo-pruneposal comfyanonymous:cbyrne/fix-outputs-count-non-dict comfyanonymous:feat/cache-provider-api comfyanonymous:pysssss/basic-glsl-shader-node comfyanonymous:cb/video-slice-node comfyanonymous:pysssss/combo-hidden-index-output comfyanonymous:assets-api-tests-cbyrne comfyanonymous:search-aliases-model-misc comfyanonymous:search-aliases-audio-video comfyanonymous:feat/savevideo-dynamic-codec-options comfyanonymous:feat/advanced-input-parameter comfyanonymous:ric-yu/ui-output-types comfyanonymous:ric-yu/subgraph-blueprints comfyanonymous:hack-hunter comfyanonymous:portable-manager-update comfyanonymous:christian-byrne-patch-2 comfyanonymous:release/v0.3.77 comfyanonymous:lora-node-refactor comfyanonymous:christian-byrne-patch-1 comfyanonymous:update-templates-3 comfyanonymous:template-static-iter comfyanonymous:combo-output-fix comfyanonymous:flipflop-stream comfyanonymous:chore/update-frontend-1.29.3 comfyanonymous:deprecation-warning-adjust comfyanonymous:worksplit-multigpu comfyanonymous:v3-process-isolation comfyanonymous:asset-management comfyanonymous:cache-index-json-locales comfyanonymous:dd comfyanonymous:fix-context-window-slicing comfyanonymous:js/progress-crossover-fix comfyanonymous:sortblock comfyanonymous:node-memory-reserve comfyanonymous:pysssss-model-db comfyanonymous:v3-nodes comfyanonymous:openapi-spec comfyanonymous:js/drafts/async_nodes_v2 comfyanonymous:js/drafts/async_nodes comfyanonymous:desktop-release-may292025 comfyanonymous:venv-management comfyanonymous:yoland68-patch-5 comfyanonymous:yoland68-patch-4 comfyanonymous:desktop-release-may062025 comfyanonymous:yoland68-patch-3 comfyanonymous:yoland68-patch-2 comfyanonymous:desktop-release-apr242025 comfyanonymous:yoland68-more-owner-updates comfyanonymous:desktop-release-apr222025 comfyanonymous:yoland68-patch-1 comfyanonymous:model_manager comfyanonymous:huchenlei-patch-1 comfyanonymous:yo-lora-trainer comfyanonymous:annoate_get_input_info comfyanonymous:weight-zipper comfyanonymous:required_frontend_ver comfyanonymous:worksplit-multigpu-loaders comfyanonymous:video_output comfyanonymous:rh-uvtest comfyanonymous:yo-add-precommit comfyanonymous:model_management comfyanonymous:model-paths-helper comfyanonymous:base-path-env-var
comfyanonymous:v0.13.0 comfyanonymous:v0.12.3 comfyanonymous:v0.12.2 comfyanonymous:v0.12.1 comfyanonymous:v0.12.0 comfyanonymous:v0.11.1 comfyanonymous:v0.11.0 comfyanonymous:v0.10.0 comfyanonymous:v0.9.2 comfyanonymous:v0.9.1 comfyanonymous:v0.9.0 comfyanonymous:v0.8.2 comfyanonymous:v0.8.1 comfyanonymous:v0.8.0 comfyanonymous:v0.7.0 comfyanonymous:v0.6.0 comfyanonymous:v0.5.1 comfyanonymous:v0.5.0 comfyanonymous:v0.4.0 comfyanonymous:v0.3.77 comfyanonymous:v0.3.76 comfyanonymous:v0.3.75 comfyanonymous:v0.3.74 comfyanonymous:v0.3.73 comfyanonymous:v0.3.72 comfyanonymous:v0.3.71 comfyanonymous:v0.3.70 comfyanonymous:v0.3.69 comfyanonymous:v0.3.68 comfyanonymous:v0.3.67 comfyanonymous:v0.3.66 comfyanonymous:v0.3.65 comfyanonymous:v0.3.64 comfyanonymous:v0.3.63 comfyanonymous:v0.3.62 comfyanonymous:v0.3.61 comfyanonymous:v0.3.60 comfyanonymous:v0.3.59 comfyanonymous:v0.3.58 comfyanonymous:v0.3.57 comfyanonymous:v0.3.56 comfyanonymous:v0.3.55 comfyanonymous:v0.3.54 comfyanonymous:v0.3.53 comfyanonymous:v0.3.52 comfyanonymous:v0.3.51 comfyanonymous:v0.3.50 comfyanonymous:v0.3.49 comfyanonymous:v0.3.48 comfyanonymous:v0.3.47 comfyanonymous:v0.3.46 comfyanonymous:v0.3.45 comfyanonymous:v0.3.44 comfyanonymous:v0.3.43 comfyanonymous:v0.3.42 comfyanonymous:v0.3.41 comfyanonymous:v0.3.40 comfyanonymous:v0.3.39 comfyanonymous:v0.3.38 comfyanonymous:v0.3.37 comfyanonymous:v0.3.36 comfyanonymous:v0.3.35 comfyanonymous:v0.3.34 comfyanonymous:v0.3.33 comfyanonymous:v0.3.32 comfyanonymous:v0.3.31 comfyanonymous:v0.3.30 comfyanonymous:v0.3.29 comfyanonymous:v0.3.28 comfyanonymous:v0.3.27 comfyanonymous:v0.3.26 comfyanonymous:v0.3.25 comfyanonymous:v0.3.24 comfyanonymous:v0.3.23 comfyanonymous:v0.3.22 comfyanonymous:v0.3.21 comfyanonymous:v0.3.20 comfyanonymous:v0.3.19 comfyanonymous:v0.3.18 comfyanonymous:v0.3.17 comfyanonymous:v0.3.16 comfyanonymous:v0.3.15 comfyanonymous:v0.3.14 comfyanonymous:v0.3.13 comfyanonymous:v0.3.12 comfyanonymous:v0.3.11 comfyanonymous:v0.3.10 comfyanonymous:v0.3.9 comfyanonymous:v0.3.8 comfyanonymous:v0.3.7 comfyanonymous:v0.3.6 comfyanonymous:v0.3.5 comfyanonymous:v0.3.4 comfyanonymous:v0.3.3 comfyanonymous:v0.3.2 comfyanonymous:v0.3.1 comfyanonymous:v0.3.0 comfyanonymous:v0.2.7 comfyanonymous:v0.2.6 comfyanonymous:v0.2.5 comfyanonymous:v0.2.4 comfyanonymous:v0.2.3 comfyanonymous:v0.2.2 comfyanonymous:v0.2.1 comfyanonymous:v0.2.0 comfyanonymous:v0.1.3 comfyanonymous:v0.1.2 comfyanonymous:v0.1.1 comfyanonymous:v0.1.0 comfyanonymous:v0.0.8 comfyanonymous:v0.0.7 comfyanonymous:v0.0.6 comfyanonymous:v0.0.5 comfyanonymous:v0.0.4 comfyanonymous:v0.0.3 comfyanonymous:v0.0.2 comfyanonymous:v0.0.1 comfyanonymous:latest
..
compare: comfyanonymous:sortblock
Branches Tags
comfyanonymous:pysssss/glsl-blueprints comfyanonymous:automation/comfyui-frontend-bump comfyanonymous:fix/api-nodes/vidu-pricing comfyanonymous:master comfyanonymous:glsl-cloud-testing comfyanonymous:image-crop comfyanonymous:color-correct-node comfyanonymous:christian-byrne-patch-3 comfyanonymous:painter-node comfyanonymous:color-correct comfyanonymous:fix/breaking-change-precompute-freqs-cis-import comfyanonymous:v3/nodes_lt_upsampler comfyanonymous:jk/requirements-files comfyanonymous:luke-mino-altherr/asynchronous-scanning comfyanonymous:ben/release-webhook-dispatch-desktop comfyanonymous:prs/dynamic-vram-fixes/windows-unbacked-virt-bug comfyanonymous:jk/optional-switch comfyanonymous:si/sync-test comfyanonymous:jk/control-after-generate comfyanonymous:feat/core/expected_outputs comfyanonymous:feat/api-nodes/11labs-music comfyanonymous:v3/model_merging comfyanonymous:partition-advanced-widgets comfyanonymous:rename-mahiro comfyanonymous:blueprint-index-filtering comfyanonymous:essentials-category comfyanonymous:feat/model-placeholder comfyanonymous:cb/tdd-002-process-isolation comfyanonymous:luke-mino-altherr/asset-database-queries-refactor comfyanonymous:feature/frontend-hardcoded-replacements comfyanonymous:remove-cache-busting comfyanonymous:toolkit-nodes/aspect-ratio-blueprint comfyanonymous:assets-redo-part2 comfyanonymous:pysssss/color-to-int-node comfyanonymous:pysssss/basic-glsl-shader-node-glfw comfyanonymous:jk/remove-unused-code comfyanonymous:cbyrne/text-preview-support comfyanonymous:assets-redo-pruneposal comfyanonymous:cbyrne/fix-outputs-count-non-dict comfyanonymous:feat/cache-provider-api comfyanonymous:pysssss/basic-glsl-shader-node comfyanonymous:cb/video-slice-node comfyanonymous:pysssss/combo-hidden-index-output comfyanonymous:assets-api-tests-cbyrne comfyanonymous:search-aliases-model-misc comfyanonymous:search-aliases-audio-video comfyanonymous:feat/savevideo-dynamic-codec-options comfyanonymous:feat/advanced-input-parameter comfyanonymous:ric-yu/ui-output-types comfyanonymous:ric-yu/subgraph-blueprints comfyanonymous:hack-hunter comfyanonymous:portable-manager-update comfyanonymous:christian-byrne-patch-2 comfyanonymous:release/v0.3.77 comfyanonymous:lora-node-refactor comfyanonymous:christian-byrne-patch-1 comfyanonymous:update-templates-3 comfyanonymous:template-static-iter comfyanonymous:combo-output-fix comfyanonymous:flipflop-stream comfyanonymous:chore/update-frontend-1.29.3 comfyanonymous:deprecation-warning-adjust comfyanonymous:worksplit-multigpu comfyanonymous:v3-process-isolation comfyanonymous:asset-management comfyanonymous:cache-index-json-locales comfyanonymous:dd comfyanonymous:fix-context-window-slicing comfyanonymous:js/progress-crossover-fix comfyanonymous:sortblock comfyanonymous:node-memory-reserve comfyanonymous:pysssss-model-db comfyanonymous:v3-nodes comfyanonymous:openapi-spec comfyanonymous:js/drafts/async_nodes_v2 comfyanonymous:js/drafts/async_nodes comfyanonymous:desktop-release-may292025 comfyanonymous:venv-management comfyanonymous:yoland68-patch-5 comfyanonymous:yoland68-patch-4 comfyanonymous:desktop-release-may062025 comfyanonymous:yoland68-patch-3 comfyanonymous:yoland68-patch-2 comfyanonymous:desktop-release-apr242025 comfyanonymous:yoland68-more-owner-updates comfyanonymous:desktop-release-apr222025 comfyanonymous:yoland68-patch-1 comfyanonymous:model_manager comfyanonymous:huchenlei-patch-1 comfyanonymous:yo-lora-trainer comfyanonymous:annoate_get_input_info comfyanonymous:weight-zipper comfyanonymous:required_frontend_ver comfyanonymous:worksplit-multigpu-loaders comfyanonymous:video_output comfyanonymous:rh-uvtest comfyanonymous:yo-add-precommit comfyanonymous:model_management comfyanonymous:model-paths-helper comfyanonymous:base-path-env-var
comfyanonymous:v0.13.0 comfyanonymous:v0.12.3 comfyanonymous:v0.12.2 comfyanonymous:v0.12.1 comfyanonymous:v0.12.0 comfyanonymous:v0.11.1 comfyanonymous:v0.11.0 comfyanonymous:v0.10.0 comfyanonymous:v0.9.2 comfyanonymous:v0.9.1 comfyanonymous:v0.9.0 comfyanonymous:v0.8.2 comfyanonymous:v0.8.1 comfyanonymous:v0.8.0 comfyanonymous:v0.7.0 comfyanonymous:v0.6.0 comfyanonymous:v0.5.1 comfyanonymous:v0.5.0 comfyanonymous:v0.4.0 comfyanonymous:v0.3.77 comfyanonymous:v0.3.76 comfyanonymous:v0.3.75 comfyanonymous:v0.3.74 comfyanonymous:v0.3.73 comfyanonymous:v0.3.72 comfyanonymous:v0.3.71 comfyanonymous:v0.3.70 comfyanonymous:v0.3.69 comfyanonymous:v0.3.68 comfyanonymous:v0.3.67 comfyanonymous:v0.3.66 comfyanonymous:v0.3.65 comfyanonymous:v0.3.64 comfyanonymous:v0.3.63 comfyanonymous:v0.3.62 comfyanonymous:v0.3.61 comfyanonymous:v0.3.60 comfyanonymous:v0.3.59 comfyanonymous:v0.3.58 comfyanonymous:v0.3.57 comfyanonymous:v0.3.56 comfyanonymous:v0.3.55 comfyanonymous:v0.3.54 comfyanonymous:v0.3.53 comfyanonymous:v0.3.52 comfyanonymous:v0.3.51 comfyanonymous:v0.3.50 comfyanonymous:v0.3.49 comfyanonymous:v0.3.48 comfyanonymous:v0.3.47 comfyanonymous:v0.3.46 comfyanonymous:v0.3.45 comfyanonymous:v0.3.44 comfyanonymous:v0.3.43 comfyanonymous:v0.3.42 comfyanonymous:v0.3.41 comfyanonymous:v0.3.40 comfyanonymous:v0.3.39 comfyanonymous:v0.3.38 comfyanonymous:v0.3.37 comfyanonymous:v0.3.36 comfyanonymous:v0.3.35 comfyanonymous:v0.3.34 comfyanonymous:v0.3.33 comfyanonymous:v0.3.32 comfyanonymous:v0.3.31 comfyanonymous:v0.3.30 comfyanonymous:v0.3.29 comfyanonymous:v0.3.28 comfyanonymous:v0.3.27 comfyanonymous:v0.3.26 comfyanonymous:v0.3.25 comfyanonymous:v0.3.24 comfyanonymous:v0.3.23 comfyanonymous:v0.3.22 comfyanonymous:v0.3.21 comfyanonymous:v0.3.20 comfyanonymous:v0.3.19 comfyanonymous:v0.3.18 comfyanonymous:v0.3.17 comfyanonymous:v0.3.16 comfyanonymous:v0.3.15 comfyanonymous:v0.3.14 comfyanonymous:v0.3.13 comfyanonymous:v0.3.12 comfyanonymous:v0.3.11 comfyanonymous:v0.3.10 comfyanonymous:v0.3.9 comfyanonymous:v0.3.8 comfyanonymous:v0.3.7 comfyanonymous:v0.3.6 comfyanonymous:v0.3.5 comfyanonymous:v0.3.4 comfyanonymous:v0.3.3 comfyanonymous:v0.3.2 comfyanonymous:v0.3.1 comfyanonymous:v0.3.0 comfyanonymous:v0.2.7 comfyanonymous:v0.2.6 comfyanonymous:v0.2.5 comfyanonymous:v0.2.4 comfyanonymous:v0.2.3 comfyanonymous:v0.2.2 comfyanonymous:v0.2.1 comfyanonymous:v0.2.0 comfyanonymous:v0.1.3 comfyanonymous:v0.1.2 comfyanonymous:v0.1.1 comfyanonymous:v0.1.0 comfyanonymous:v0.0.8 comfyanonymous:v0.0.7 comfyanonymous:v0.0.6 comfyanonymous:v0.0.5 comfyanonymous:v0.0.4 comfyanonymous:v0.0.3 comfyanonymous:v0.0.2 comfyanonymous:v0.0.1 comfyanonymous:latest

44 Commits
pysssss/gl ... sortblock

Author SHA1 Message Date
Jedrzej Kosinski
295b49c165 Doing some experimentation 2025-09-02 22:19:12 -07:00
Jedrzej Kosinski
a40c5ae341 Support predict_ratio changing with timesteps 2025-09-02 15:23:28 -07:00
Jedrzej Kosinski
953b906f63 Implement Sortblock for single cond usage 2025-09-02 00:45:59 -07:00
Jedrzej Kosinski
d4a8752c8c some exploration of sortblock as more things from paper/source code need to be added 2025-09-01 09:39:40 -07:00
Jedrzej Kosinski
cf26d3d58e More progress on Sortblock 2025-08-31 20:26:49 -07:00
Jedrzej Kosinski
f655fcc5ce Progress on scaffolding for an EasyCache style implementation of Sortblock 2025-08-31 00:59:01 -07:00
Jedrzej Kosinski
e2491f44e8 Merge branch 'attention-select' into sortblock 2025-08-30 20:04:48 -07:00
Jedrzej Kosinski
66c4eb006b Remove AttentionOverrideTest node, that's something to cook up for later 2025-08-30 15:19:36 -07:00
Jedrzej Kosinski
dd0a5093f6 Satisfy ruff 2025-08-30 14:58:30 -07:00
Jedrzej Kosinski
c092b8a4ac Remove _register_core_attention_functions, as we wouldn't want someone to call that, just in case 2025-08-30 14:49:04 -07:00
Jedrzej Kosinski
eaa9433ff8 Remove attention logging code 2025-08-30 14:45:12 -07:00
Jedrzej Kosinski
720d0a88e6 Disable attention logs for now 2025-08-30 01:11:34 -07:00
Jedrzej Kosinski
d9bb4530b0 Merge branch 'master' into attention-select 2025-08-29 23:35:38 -07:00
Jedrzej Kosinski
cb959f9669 Add optimized to get_attention_function 2025-08-29 21:48:36 -07:00
Jedrzej Kosinski
d553073a1e Fixed WAN 2.1 VACE transformer_options passthrough 2025-08-29 13:20:43 -07:00
Jedrzej Kosinski
af288b9946 Fixed Wan2.1 Fun Camera transformer_options passthrough 2025-08-29 13:06:37 -07:00
Jedrzej Kosinski
1ae6fe14a7 Fix WanI2VCrossAttention so that it expects to receive transformer_options 2025-08-29 02:31:16 -07:00
Jedrzej Kosinski
2d13bf1c7a Made SVD work with optimized_attention_override 2025-08-28 22:45:45 -07:00
Jedrzej Kosinski
8be3edb606 Made Chroma work with optimized_attention_override 2025-08-28 22:45:31 -07:00
Jedrzej Kosinski
d644aba6bc Made Lumina work with optimized_attention_override 2025-08-28 22:00:44 -07:00
Jedrzej Kosinski
17090c56be Made AuraFlow work with optimized_attention_override 2025-08-28 21:46:56 -07:00
Jedrzej Kosinski
034d6c12e6 Made StableCascade work with optimized_attention_override 2025-08-28 21:42:08 -07:00
Jedrzej Kosinski
09c84b31a2 Made Omnigen 2 work with optimized_attention_override 2025-08-28 21:30:18 -07:00
Jedrzej Kosinski
8fe2dea297 Made CosmosVideo work with optimized_attention_override 2025-08-28 21:23:03 -07:00
Jedrzej Kosinski
4a44ed4a76 Make CosmosPredict2 work with optimized_attention_override 2025-08-28 21:18:34 -07:00
Jedrzej Kosinski
8b9b4bbb62 Made Hunyuan3D work with optimized_attention_override 2025-08-28 21:06:44 -07:00
Jedrzej Kosinski
27ebd312ae Made optimized_attention_override work with ACE Step 2025-08-28 21:03:28 -07:00
Jedrzej Kosinski
9461f30387 Made StableAudio work with optimized_attention_override 2025-08-28 20:56:56 -07:00
Jedrzej Kosinski
2cda45d1b4 Made LTX work with optimized_attention_override 2025-08-28 20:42:22 -07:00
Jedrzej Kosinski
61b5c5fc75 Made Mochi work with optimized_attention_override 2025-08-28 20:34:06 -07:00
Jedrzej Kosinski
ef894cdf08 Made HunyuanVideo work with optimized_attention_override 2025-08-28 20:26:53 -07:00
Jedrzej Kosinski
0ac5c6344f Made SD3 work with optimized_attention_override 2025-08-28 20:21:14 -07:00
Jedrzej Kosinski
1ddfb5bb14 Made wan patches_replace work with optimized_attention_override 2025-08-28 20:13:51 -07:00
Jedrzej Kosinski
4cafd58f71 Made hidream work with optimized_attention_override 2025-08-28 20:10:50 -07:00
Jedrzej Kosinski
f752715aac Make Qwen work with optimized_attention_override 2025-08-28 19:52:52 -07:00
Jedrzej Kosinski
48ed71caf8 Add logs to verify optimized_attention_override is passed all the way into attention function 2025-08-28 19:43:39 -07:00
Jedrzej Kosinski
a7d70e42a0 Make flux work with optimized_attention_override 2025-08-28 19:33:02 -07:00
Jedrzej Kosinski
1f499f0794 Turn off attention logging for now, make AttentionOverrideTestNode have a dropdown with available attention (this is a test node only) 2025-08-28 18:54:22 -07:00
Jedrzej Kosinski
51a30c2ad7 Make sure wrap_attn doesn't make itself recurse infinitely, attempt to load SageAttention and FlashAttention if not enabled so that they can be marked as available or not, create registry for available attention 2025-08-28 18:53:20 -07:00
Jedrzej Kosinski
669b9ef8e6 Added **kwargs to all attention functions so transformer_options could potentially be passed through 2025-08-28 13:14:41 -07:00
Jedrzej Kosinski
dd21b4aa51 Made WAN attention receive transformer_options, test node added to wan to test out attention override later 2025-08-27 17:56:21 -07:00
Jedrzej Kosinski
29b7990dc2 Fix memory usage issue with inspect 2025-08-27 17:55:35 -07:00
Jedrzej Kosinski
68b00e9c60 Created logging code for this branch so that it can be used to track down all the code paths where transformer_options would need to be added 2025-08-27 17:13:33 -07:00
Jedrzej Kosinski
b58db6934c Looking into a @wrap_attn decorator to look for 'optimized_attention_override' entry in transformer_options 2025-08-27 14:18:18 -07:00
420 changed files with 19623 additions and 61323 deletions
Expand all files Collapse all files

17
.ci/update_windows/update.py
View File

@@ -53,16 +53,6 @@ try:
repo.stash(ident)
except KeyError:
print("nothing to stash") # noqa: T201
except:
print("Could not stash, cleaning index and trying again.") # noqa: T201
repo.state_cleanup()
repo.index.read_tree(repo.head.peel().tree)
repo.index.write()
try:
repo.stash(ident)
except KeyError:
print("nothing to stash.") # noqa: T201
backup_branch_name = 'backup_branch_{}'.format(datetime.today().strftime('%Y-%m-%d_%H_%M_%S'))
print("creating backup branch: {}".format(backup_branch_name)) # noqa: T201
try:
@@ -76,10 +66,8 @@ if branch is None:
try:
ref = repo.lookup_reference('refs/remotes/origin/master')
except:
print("fetching.") # noqa: T201
for remote in repo.remotes:
if remote.name == "origin":
remote.fetch()
print("pulling.") # noqa: T201
pull(repo)
ref = repo.lookup_reference('refs/remotes/origin/master')
repo.checkout(ref)
branch = repo.lookup_branch('master')
@@ -161,4 +149,3 @@ try:
shutil.copy(stable_update_script, stable_update_script_to)
except:
pass

28
.ci/windows_amd_base_files/README_VERY_IMPORTANT.txt
View File

@@ -1,28 +0,0 @@
As of the time of writing this you need this driver for best results:
https://www.amd.com/en/resources/support-articles/release-notes/RN-AMDGPU-WINDOWS-PYTORCH-7-1-1.html
HOW TO RUN:
If you have a AMD gpu:
run_amd_gpu.bat
If you have memory issues you can try disabling the smart memory management by running comfyui with:
run_amd_gpu_disable_smart_memory.bat
IF YOU GET A RED ERROR IN THE UI MAKE SURE YOU HAVE A MODEL/CHECKPOINT IN: ComfyUI\models\checkpoints
You can download the stable diffusion XL one from: https://huggingface.co/stabilityai/stable-diffusion-xl-base-1.0/blob/main/sd_xl_base_1.0_0.9vae.safetensors
RECOMMENDED WAY TO UPDATE:
To update the ComfyUI code: update\update_comfyui.bat
TO SHARE MODELS BETWEEN COMFYUI AND ANOTHER UI:
In the ComfyUI directory you will find a file: extra_model_paths.yaml.example
Rename this file to: extra_model_paths.yaml and edit it with your favorite text editor.

0
.ci/windows_nvidia_base_files/README_VERY_IMPORTANT.txt → .ci/windows_base_files/README_VERY_IMPORTANT.txt
View File

0
.ci/windows_nvidia_base_files/run_cpu.bat → .ci/windows_base_files/run_cpu.bat
View File

0
.ci/windows_amd_base_files/run_amd_gpu.bat → .ci/windows_base_files/run_nvidia_gpu.bat
View File

2
.ci/windows_amd_base_files/run_amd_gpu_disable_smart_memory.bat → .ci/windows_base_files/run_nvidia_gpu_fast_fp16_accumulation.bat Executable file → Normal file
View File

@@ -1,2 +1,2 @@
.\python_embeded\python.exe -s ComfyUI\main.py --windows-standalone-build --disable-smart-memory
.\python_embeded\python.exe -s ComfyUI\main.py --windows-standalone-build --fast fp16_accumulation
pause

3
.ci/windows_nvidia_base_files/advanced/run_nvidia_gpu_disable_api_nodes.bat
View File

@@ -1,3 +0,0 @@
..\python_embeded\python.exe -s ..\ComfyUI\main.py --windows-standalone-build --disable-api-nodes
echo If you see this and ComfyUI did not start try updating your Nvidia Drivers to the latest. If you get a c10.dll error you need to install vc redist that you can find: https://aka.ms/vc14/vc_redist.x64.exe
pause

3
.ci/windows_nvidia_base_files/run_nvidia_gpu.bat
View File

@@ -1,3 +0,0 @@
.\python_embeded\python.exe -s ComfyUI\main.py --windows-standalone-build
echo If you see this and ComfyUI did not start try updating your Nvidia Drivers to the latest. If you get a c10.dll error you need to install vc redist that you can find: https://aka.ms/vc14/vc_redist.x64.exe
pause

3
.ci/windows_nvidia_base_files/run_nvidia_gpu_fast_fp16_accumulation.bat
View File

@@ -1,3 +0,0 @@
.\python_embeded\python.exe -s ComfyUI\main.py --windows-standalone-build --fast fp16_accumulation
echo If you see this and ComfyUI did not start try updating your Nvidia Drivers to the latest. If you get a c10.dll error you need to install vc redist that you can find: https://aka.ms/vc14/vc_redist.x64.exe
pause

8
.github/ISSUE_TEMPLATE/bug-report.yml vendored
View File

@@ -8,15 +8,13 @@ body:
Before submitting a **Bug Report**, please ensure the following:
- **1:** You are running the latest version of ComfyUI.
- **2:** You have your ComfyUI logs and relevant workflow on hand and will post them in this bug report.
- **2:** You have looked at the existing bug reports and made sure this isn't already reported.
- **3:** You confirmed that the bug is not caused by a custom node. You can disable all custom nodes by passing
`--disable-all-custom-nodes` command line argument. If you have custom node try updating them to the latest version.
`--disable-all-custom-nodes` command line argument.
- **4:** This is an actual bug in ComfyUI, not just a support question. A bug is when you can specify exact
steps to replicate what went wrong and others will be able to repeat your steps and see the same issue happen.
## Very Important
Please make sure that you post ALL your ComfyUI logs in the bug report. A bug report without logs will likely be ignored.
If unsure, ask on the [ComfyUI Matrix Space](https://app.element.io/#/room/%23comfyui_space%3Amatrix.org) or the [Comfy Org Discord](https://discord.gg/comfyorg) first.
- type: checkboxes
id: custom-nodes-test
attributes:

21
.github/PULL_REQUEST_TEMPLATE/api-node.md vendored
View File

@@ -1,21 +0,0 @@
<!-- API_NODE_PR_CHECKLIST: do not remove -->
## API Node PR Checklist
### Scope
- [ ] **Is API Node Change**
### Pricing & Billing
- [ ] **Need pricing update**
- [ ] **No pricing update**
If **Need pricing update**:
- [ ] Metronome rate cards updated
- [ ] Autobilling tests updated and passing
### QA
- [ ] **QA done**
- [ ] **QA not required**
### Comms
- [ ] Informed **Kosinkadink**

58
.github/workflows/api-node-template.yml vendored
View File

@@ -1,58 +0,0 @@
name: Append API Node PR template
on:
pull_request_target:
types: [opened, reopened, synchronize, ready_for_review]
paths:
- 'comfy_api_nodes/**' # only run if these files changed
permissions:
contents: read
pull-requests: write
jobs:
inject:
runs-on: ubuntu-latest
steps:
- name: Ensure template exists and append to PR body
uses: actions/github-script@v7
with:
script: |
const { owner, repo } = context.repo;
const number = context.payload.pull_request.number;
const templatePath = '.github/PULL_REQUEST_TEMPLATE/api-node.md';
const marker = '<!-- API_NODE_PR_CHECKLIST: do not remove -->';
const { data: pr } = await github.rest.pulls.get({ owner, repo, pull_number: number });
let templateText;
try {
const res = await github.rest.repos.getContent({
owner,
repo,
path: templatePath,
ref: pr.base.ref
});
const buf = Buffer.from(res.data.content, res.data.encoding || 'base64');
templateText = buf.toString('utf8');
} catch (e) {
core.setFailed(`Required PR template not found at "${templatePath}" on ${pr.base.ref}. Please add it to the repo.`);
return;
}
// Enforce the presence of the marker inside the template (for idempotence)
if (!templateText.includes(marker)) {
core.setFailed(`Template at "${templatePath}" does not contain the required marker:\n${marker}\nAdd it so we can detect duplicates safely.`);
return;
}
// If the PR already contains the marker, do not append again.
const body = pr.body || '';
if (body.includes(marker)) {
core.info('Template already present in PR body; nothing to inject.');
return;
}
const newBody = (body ? body + '\n\n' : '') + templateText + '\n';
await github.rest.pulls.update({ owner, repo, pull_number: number, body: newBody });
core.notice('API Node template appended to PR description.');

78
.github/workflows/release-stable-all.yml vendored
View File

@@ -1,78 +0,0 @@
name: "Release Stable All Portable Versions"
on:
workflow_dispatch:
inputs:
git_tag:
description: 'Git tag'
required: true
type: string
jobs:
release_nvidia_default:
permissions:
contents: "write"
packages: "write"
pull-requests: "read"
name: "Release NVIDIA Default (cu130)"
uses: ./.github/workflows/stable-release.yml
with:
git_tag: ${{ inputs.git_tag }}
cache_tag: "cu130"
python_minor: "13"
python_patch: "11"
rel_name: "nvidia"
rel_extra_name: ""
test_release: true
secrets: inherit
release_nvidia_cu128:
permissions:
contents: "write"
packages: "write"
pull-requests: "read"
name: "Release NVIDIA cu128"
uses: ./.github/workflows/stable-release.yml
with:
git_tag: ${{ inputs.git_tag }}
cache_tag: "cu128"
python_minor: "12"
python_patch: "10"
rel_name: "nvidia"
rel_extra_name: "_cu128"
test_release: true
secrets: inherit
release_nvidia_cu126:
permissions:
contents: "write"
packages: "write"
pull-requests: "read"
name: "Release NVIDIA cu126"
uses: ./.github/workflows/stable-release.yml
with:
git_tag: ${{ inputs.git_tag }}
cache_tag: "cu126"
python_minor: "12"
python_patch: "10"
rel_name: "nvidia"
rel_extra_name: "_cu126"
test_release: true
secrets: inherit
release_amd_rocm:
permissions:
contents: "write"
packages: "write"
pull-requests: "read"
name: "Release AMD ROCm 7.2"
uses: ./.github/workflows/stable-release.yml
with:
git_tag: ${{ inputs.git_tag }}
cache_tag: "rocm72"
python_minor: "12"
python_patch: "10"
rel_name: "amd"
rel_extra_name: ""
test_release: false
secrets: inherit

25
.github/workflows/ruff.yml vendored
View File

@@ -21,28 +21,3 @@ jobs:
- name: Run Ruff
run: ruff check .
pylint:
name: Run Pylint
runs-on: ubuntu-latest
steps:
- name: Checkout repository
uses: actions/checkout@v4
- name: Set up Python
uses: actions/setup-python@v4
with:
python-version: '3.12'
- name: Install requirements
run: |
python -m pip install --upgrade pip
pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cpu
pip install -r requirements.txt
- name: Install Pylint
run: pip install pylint
- name: Run Pylint
run: pylint comfy_api_nodes

98
.github/workflows/stable-release.yml vendored
View File

@@ -2,53 +2,17 @@
name: "Release Stable Version"
on:
workflow_call:
inputs:
git_tag:
description: 'Git tag'
required: true
type: string
cache_tag:
description: 'Cached dependencies tag'
required: true
type: string
default: "cu129"
python_minor:
description: 'Python minor version'
required: true
type: string
default: "13"
python_patch:
description: 'Python patch version'
required: true
type: string
default: "6"
rel_name:
description: 'Release name'
required: true
type: string
default: "nvidia"
rel_extra_name:
description: 'Release extra name'
required: false
type: string
default: ""
test_release:
description: 'Test Release'
required: true
type: boolean
default: true
workflow_dispatch:
inputs:
git_tag:
description: 'Git tag'
required: true
type: string
cache_tag:
description: 'Cached dependencies tag'
cu:
description: 'CUDA version'
required: true
type: string
default: "cu129"
default: "129"
python_minor:
description: 'Python minor version'
required: true
@@ -59,21 +23,7 @@ on:
required: true
type: string
default: "6"
rel_name:
description: 'Release name'
required: true
type: string
default: "nvidia"
rel_extra_name:
description: 'Release extra name'
required: false
type: string
default: ""
test_release:
description: 'Test Release'
required: true
type: boolean
default: true
jobs:
package_comfy_windows:
@@ -92,15 +42,15 @@ jobs:
id: cache
with:
path: |
${{ inputs.cache_tag }}_python_deps.tar
cu${{ inputs.cu }}_python_deps.tar
update_comfyui_and_python_dependencies.bat
key: ${{ runner.os }}-build-${{ inputs.cache_tag }}-${{ inputs.python_minor }}
key: ${{ runner.os }}-build-cu${{ inputs.cu }}-${{ inputs.python_minor }}
- shell: bash
run: |
mv ${{ inputs.cache_tag }}_python_deps.tar ../
mv cu${{ inputs.cu }}_python_deps.tar ../
mv update_comfyui_and_python_dependencies.bat ../
cd ..
tar xf ${{ inputs.cache_tag }}_python_deps.tar
tar xf cu${{ inputs.cu }}_python_deps.tar
pwd
ls
@@ -115,19 +65,12 @@ jobs:
echo 'import site' >> ./python3${{ inputs.python_minor }}._pth
curl https://bootstrap.pypa.io/get-pip.py -o get-pip.py
./python.exe get-pip.py
./python.exe -s -m pip install ../${{ inputs.cache_tag }}_python_deps/*
grep comfy ../ComfyUI/requirements.txt > ./requirements_comfyui.txt
./python.exe -s -m pip install -r requirements_comfyui.txt
rm requirements_comfyui.txt
./python.exe -s -m pip install ../cu${{ inputs.cu }}_python_deps/*
sed -i '1i../ComfyUI' ./python3${{ inputs.python_minor }}._pth
if test -f ./Lib/site-packages/torch/lib/dnnl.lib; then
rm ./Lib/site-packages/torch/lib/dnnl.lib #I don't think this is actually used and I need the space
rm ./Lib/site-packages/torch/lib/libprotoc.lib
rm ./Lib/site-packages/torch/lib/libprotobuf.lib
fi
rm ./Lib/site-packages/torch/lib/dnnl.lib #I don't think this is actually used and I need the space
rm ./Lib/site-packages/torch/lib/libprotoc.lib
rm ./Lib/site-packages/torch/lib/libprotobuf.lib
cd ..
@@ -142,18 +85,14 @@ jobs:
mkdir update
cp -r ComfyUI/.ci/update_windows/* ./update/
cp -r ComfyUI/.ci/windows_${{ inputs.rel_name }}_base_files/* ./
cp -r ComfyUI/.ci/windows_base_files/* ./
cp ../update_comfyui_and_python_dependencies.bat ./update/
cd ..
"C:\Program Files\7-Zip\7z.exe" a -t7z -m0=lzma2 -mx=9 -mfb=128 -md=768m -ms=on -mf=BCJ2 ComfyUI_windows_portable.7z ComfyUI_windows_portable
mv ComfyUI_windows_portable.7z ComfyUI/ComfyUI_windows_portable_${{ inputs.rel_name }}${{ inputs.rel_extra_name }}.7z
mv ComfyUI_windows_portable.7z ComfyUI/ComfyUI_windows_portable_nvidia.7z
- shell: bash
if: ${{ inputs.test_release }}
run: |
cd ..
cd ComfyUI_windows_portable
python_embeded/python.exe -s ComfyUI/main.py --quick-test-for-ci --cpu
@@ -162,9 +101,10 @@ jobs:
ls
- name: Upload binaries to release
uses: softprops/action-gh-release@v2
uses: svenstaro/upload-release-action@v2
with:
files: ComfyUI_windows_portable_${{ inputs.rel_name }}${{ inputs.rel_extra_name }}.7z
tag_name: ${{ inputs.git_tag }}
repo_token: ${{ secrets.GITHUB_TOKEN }}
file: ComfyUI_windows_portable_nvidia.7z
tag: ${{ inputs.git_tag }}
overwrite: true
draft: true
overwrite_files: true

2
.github/workflows/test-build.yml vendored
View File

@@ -18,7 +18,7 @@ jobs:
strategy:
fail-fast: false
matrix:
python-version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
python-version: ["3.9", "3.10", "3.11", "3.12", "3.13"]
steps:
- uses: actions/checkout@v4
- name: Set up Python ${{ matrix.python-version }}

21
.github/workflows/test-ci.yml vendored
View File

@@ -5,7 +5,6 @@ on:
push:
branches:
- master
- release/**
paths-ignore:
- 'app/**'
- 'input/**'
@@ -22,15 +21,14 @@ jobs:
fail-fast: false
matrix:
# os: [macos, linux, windows]
# os: [macos, linux]
os: [linux]
python_version: ["3.10", "3.11", "3.12"]
os: [macos, linux]
python_version: ["3.9", "3.10", "3.11", "3.12"]
cuda_version: ["12.1"]
torch_version: ["stable"]
include:
# - os: macos
# runner_label: [self-hosted, macOS]
# flags: "--use-pytorch-cross-attention"
- os: macos
runner_label: [self-hosted, macOS]
flags: "--use-pytorch-cross-attention"
- os: linux
runner_label: [self-hosted, Linux]
flags: ""
@@ -75,15 +73,14 @@ jobs:
strategy:
fail-fast: false
matrix:
# os: [macos, linux]
os: [linux]
os: [macos, linux]
python_version: ["3.11"]
cuda_version: ["12.1"]
torch_version: ["nightly"]
include:
# - os: macos
# runner_label: [self-hosted, macOS]
# flags: "--use-pytorch-cross-attention"
- os: macos
runner_label: [self-hosted, macOS]
flags: "--use-pytorch-cross-attention"
- os: linux
runner_label: [self-hosted, Linux]
flags: ""

30
.github/workflows/test-execution.yml vendored
View File

@@ -1,30 +0,0 @@
name: Execution Tests
on:
push:
branches: [ main, master, release/** ]
pull_request:
branches: [ main, master, release/** ]
jobs:
test:
strategy:
matrix:
os: [ubuntu-latest, windows-latest, macos-latest]
runs-on: ${{ matrix.os }}
continue-on-error: true
steps:
- uses: actions/checkout@v4
- name: Set up Python
uses: actions/setup-python@v4
with:
python-version: '3.12'
- name: Install requirements
run: |
python -m pip install --upgrade pip
pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/cpu
pip install -r requirements.txt
pip install -r tests-unit/requirements.txt
- name: Run Execution Tests
run: |
python -m pytest tests/execution -v --skip-timing-checks

10
.github/workflows/test-launch.yml vendored
View File

@@ -2,9 +2,9 @@ name: Test server launches without errors
on:
push:
branches: [ main, master, release/** ]
branches: [ main, master ]
pull_request:
branches: [ main, master, release/** ]
branches: [ main, master ]
jobs:
test:
@@ -13,7 +13,7 @@ jobs:
- name: Checkout ComfyUI
uses: actions/checkout@v4
with:
repository: "Comfy-Org/ComfyUI"
repository: "comfyanonymous/ComfyUI"
path: "ComfyUI"
- uses: actions/setup-python@v4
with:
@@ -32,9 +32,7 @@ jobs:
working-directory: ComfyUI
- name: Check for unhandled exceptions in server log
run: |
grep -v "Found comfy_kitchen backend triton: {'available': False, 'disabled': True, 'unavailable_reason': \"ImportError: No module named 'triton'\", 'capabilities': \[\]}" console_output.log | grep -v "Found comfy_kitchen backend triton: {'available': False, 'disabled': False, 'unavailable_reason': \"ImportError: No module named 'triton'\", 'capabilities': \[\]}" > console_output_filtered.log
cat console_output_filtered.log
if grep -qE "Exception|Error" console_output_filtered.log; then
if grep -qE "Exception|Error" console_output.log; then
echo "Unhandled exception/error found in server log."
exit 1
fi

6
.github/workflows/test-unit.yml vendored
View File

@@ -2,15 +2,15 @@ name: Unit Tests
on:
push:
branches: [ main, master, release/** ]
branches: [ main, master ]
pull_request:
branches: [ main, master, release/** ]
branches: [ main, master ]
jobs:
test:
strategy:
matrix:
os: [ubuntu-latest, windows-2022, macos-latest]
os: [ubuntu-latest, windows-latest, macos-latest]
runs-on: ${{ matrix.os }}
continue-on-error: true
steps:

59
.github/workflows/update-ci-container.yml vendored
View File

@@ -1,59 +0,0 @@
name: "CI: Update CI Container"
on:
release:
types: [published]
workflow_dispatch:
inputs:
version:
description: 'ComfyUI version (e.g., v0.7.0)'
required: true
type: string
jobs:
update-ci-container:
runs-on: ubuntu-latest
# Skip pre-releases unless manually triggered
if: github.event_name == 'workflow_dispatch' || !github.event.release.prerelease
steps:
- name: Get version
id: version
run: |
if [ "${{ github.event_name }}" = "release" ]; then
VERSION="${{ github.event.release.tag_name }}"
else
VERSION="${{ inputs.version }}"
fi
echo "version=$VERSION" >> $GITHUB_OUTPUT
- name: Checkout comfyui-ci-container
uses: actions/checkout@v4
with:
repository: comfy-org/comfyui-ci-container
token: ${{ secrets.CI_CONTAINER_PAT }}
- name: Check current version
id: current
run: |
CURRENT=$(grep -oP 'ARG COMFYUI_VERSION=\K.*' Dockerfile || echo "unknown")
echo "current_version=$CURRENT" >> $GITHUB_OUTPUT
- name: Update Dockerfile
run: |
VERSION="${{ steps.version.outputs.version }}"
sed -i "s/^ARG COMFYUI_VERSION=.*/ARG COMFYUI_VERSION=${VERSION}/" Dockerfile
- name: Create Pull Request
id: create-pr
uses: peter-evans/create-pull-request@v7
with:
token: ${{ secrets.CI_CONTAINER_PAT }}
branch: automation/comfyui-${{ steps.version.outputs.version }}
title: "chore: bump ComfyUI to ${{ steps.version.outputs.version }}"
body: |
Updates ComfyUI version from `${{ steps.current.outputs.current_version }}` to `${{ steps.version.outputs.version }}`
**Triggered by:** ${{ github.event_name == 'release' && format('[Release {0}]({1})', github.event.release.tag_name, github.event.release.html_url) || 'Manual workflow dispatch' }}
labels: automation
commit-message: "chore: bump ComfyUI to ${{ steps.version.outputs.version }}"

1
.github/workflows/update-version.yml vendored
View File

@@ -6,7 +6,6 @@ on:
- "pyproject.toml"
branches:
- master
- release/**
jobs:
update-version:

7
.github/workflows/windows_release_dependencies.yml vendored
View File

@@ -17,7 +17,7 @@ on:
description: 'cuda version'
required: true
type: string
default: "130"
default: "129"
python_minor:
description: 'python minor version'
@@ -29,7 +29,7 @@ on:
description: 'python patch version'
required: true
type: string
default: "9"
default: "6"
# push:
# branches:
# - master
@@ -56,8 +56,7 @@ jobs:
..\python_embeded\python.exe -s -m pip install --upgrade torch torchvision torchaudio ${{ inputs.xformers }} --extra-index-url https://download.pytorch.org/whl/cu${{ inputs.cu }} -r ../ComfyUI/requirements.txt pygit2
pause" > update_comfyui_and_python_dependencies.bat
grep -v comfyui requirements.txt > requirements_nocomfyui.txt
python -m pip wheel --no-cache-dir torch torchvision torchaudio ${{ inputs.xformers }} ${{ inputs.extra_dependencies }} --extra-index-url https://download.pytorch.org/whl/cu${{ inputs.cu }} -r requirements_nocomfyui.txt pygit2 -w ./temp_wheel_dir
python -m pip wheel --no-cache-dir torch torchvision torchaudio ${{ inputs.xformers }} ${{ inputs.extra_dependencies }} --extra-index-url https://download.pytorch.org/whl/cu${{ inputs.cu }} -r requirements.txt pygit2 -w ./temp_wheel_dir
python -m pip install --no-cache-dir ./temp_wheel_dir/*
echo installed basic
ls -lah temp_wheel_dir

64
.github/workflows/windows_release_dependencies_manual.yml vendored
View File

@@ -1,64 +0,0 @@
name: "Windows Release dependencies Manual"
on:
workflow_dispatch:
inputs:
torch_dependencies:
description: 'torch dependencies'
required: false
type: string
default: "torch torchvision torchaudio --extra-index-url https://download.pytorch.org/whl/cu128"
cache_tag:
description: 'Cached dependencies tag'
required: true
type: string
default: "cu128"
python_minor:
description: 'python minor version'
required: true
type: string
default: "12"
python_patch:
description: 'python patch version'
required: true
type: string
default: "10"
jobs:
build_dependencies:
runs-on: windows-latest
steps:
- uses: actions/checkout@v4
- uses: actions/setup-python@v5
with:
python-version: 3.${{ inputs.python_minor }}.${{ inputs.python_patch }}
- shell: bash
run: |
echo "@echo off
call update_comfyui.bat nopause
echo -
echo This will try to update pytorch and all python dependencies.
echo -
echo If you just want to update normally, close this and run update_comfyui.bat instead.
echo -
pause
..\python_embeded\python.exe -s -m pip install --upgrade ${{ inputs.torch_dependencies }} -r ../ComfyUI/requirements.txt pygit2
pause" > update_comfyui_and_python_dependencies.bat
grep -v comfyui requirements.txt > requirements_nocomfyui.txt
python -m pip wheel --no-cache-dir ${{ inputs.torch_dependencies }} -r requirements_nocomfyui.txt pygit2 -w ./temp_wheel_dir
python -m pip install --no-cache-dir ./temp_wheel_dir/*
echo installed basic
ls -lah temp_wheel_dir
mv temp_wheel_dir ${{ inputs.cache_tag }}_python_deps
tar cf ${{ inputs.cache_tag }}_python_deps.tar ${{ inputs.cache_tag }}_python_deps
- uses: actions/cache/save@v4
with:
path: |
${{ inputs.cache_tag }}_python_deps.tar
update_comfyui_and_python_dependencies.bat
key: ${{ runner.os }}-build-${{ inputs.cache_tag }}-${{ inputs.python_minor }}

2
.github/workflows/windows_release_nightly_pytorch.yml vendored
View File

@@ -68,7 +68,7 @@ jobs:
mkdir update
cp -r ComfyUI/.ci/update_windows/* ./update/
cp -r ComfyUI/.ci/windows_nvidia_base_files/* ./
cp -r ComfyUI/.ci/windows_base_files/* ./
cp -r ComfyUI/.ci/windows_nightly_base_files/* ./
echo "call update_comfyui.bat nopause

2
.github/workflows/windows_release_package.yml vendored
View File

@@ -81,7 +81,7 @@ jobs:
mkdir update
cp -r ComfyUI/.ci/update_windows/* ./update/
cp -r ComfyUI/.ci/windows_nvidia_base_files/* ./
cp -r ComfyUI/.ci/windows_base_files/* ./
cp ../update_comfyui_and_python_dependencies.bat ./update/
cd ..

25
CODEOWNERS
View File

@@ -1,2 +1,25 @@
# Admins
* @comfyanonymous @kosinkadink @guill
* @comfyanonymous
# Note: Github teams syntax cannot be used here as the repo is not owned by Comfy-Org.
# Inlined the team members for now.
# Maintainers
*.md @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/tests/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/tests-unit/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/notebooks/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/script_examples/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/.github/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/requirements.txt @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
/pyproject.toml @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @Kosinkadink @christian-byrne @guill
# Python web server
/api_server/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne @guill
/app/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne @guill
/utils/ @yoland68 @robinjhuang @webfiltered @pythongosssss @ltdrdata @christian-byrne @guill
# Node developers
/comfy_extras/ @yoland68 @robinjhuang @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne @guill
/comfy/comfy_types/ @yoland68 @robinjhuang @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne @guill
/comfy_api_nodes/ @yoland68 @robinjhuang @pythongosssss @ltdrdata @Kosinkadink @webfiltered @christian-byrne @guill

168
QUANTIZATION.md
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@@ -1,168 +0,0 @@
# The Comfy guide to Quantization
## How does quantization work?
Quantization aims to map a high-precision value x_f to a lower precision format with minimal loss in accuracy. These smaller formats then serve to reduce the models memory footprint and increase throughput by using specialized hardware.
When simply converting a value from FP16 to FP8 using the round-nearest method we might hit two issues:
- The dynamic range of FP16 (-65,504, 65,504) far exceeds FP8 formats like E4M3 (-448, 448) or E5M2 (-57,344, 57,344), potentially resulting in clipped values
- The original values are concentrated in a small range (e.g. -1,1) leaving many FP8-bits "unused"
By using a scaling factor, we aim to map these values into the quantized-dtype range, making use of the full spectrum. One of the easiest approaches, and common, is using per-tensor absolute-maximum scaling.
```
absmax = max(abs(tensor))
scale = amax / max_dynamic_range_low_precision
# Quantization
tensor_q = (tensor / scale).to(low_precision_dtype)
# De-Quantization
tensor_dq = tensor_q.to(fp16) * scale
tensor_dq ~ tensor
```
Given that additional information (scaling factor) is needed to "interpret" the quantized values, we describe those as derived datatypes.
## Quantization in Comfy
```
QuantizedTensor (torch.Tensor subclass)
↓ __torch_dispatch__
Two-Level Registry (generic + layout handlers)
MixedPrecisionOps + Metadata Detection
```
### Representation
To represent these derived datatypes, ComfyUI uses a subclass of torch.Tensor to implements these using the `QuantizedTensor` class found in `comfy/quant_ops.py`
A `Layout` class defines how a specific quantization format behaves:
- Required parameters
- Quantize method
- De-Quantize method
```python
from comfy.quant_ops import QuantizedLayout
class MyLayout(QuantizedLayout):
@classmethod
def quantize(cls, tensor, **kwargs):
# Convert to quantized format
qdata = ...
params = {'scale': ..., 'orig_dtype': tensor.dtype}
return qdata, params
@staticmethod
def dequantize(qdata, scale, orig_dtype, **kwargs):
return qdata.to(orig_dtype) * scale
```
To then run operations using these QuantizedTensors we use two registry systems to define supported operations.
The first is a **generic registry** that handles operations common to all quantized formats (e.g., `.to()`, `.clone()`, `.reshape()`).
The second registry is layout-specific and allows to implement fast-paths like nn.Linear.
```python
from comfy.quant_ops import register_layout_op
@register_layout_op(torch.ops.aten.linear.default, MyLayout)
def my_linear(func, args, kwargs):
# Extract tensors, call optimized kernel
...
```
When `torch.nn.functional.linear()` is called with QuantizedTensor arguments, `__torch_dispatch__` automatically routes to the registered implementation.
For any unsupported operation, QuantizedTensor will fallback to call `dequantize` and dispatch using the high-precision implementation.
### Mixed Precision
The `MixedPrecisionOps` class (lines 542-648 in `comfy/ops.py`) enables per-layer quantization decisions, allowing different layers in a model to use different precisions. This is activated when a model config contains a `layer_quant_config` dictionary that specifies which layers should be quantized and how.
**Architecture:**
```python
class MixedPrecisionOps(disable_weight_init):
_layer_quant_config = {} # Maps layer names to quantization configs
_compute_dtype = torch.bfloat16 # Default compute / dequantize precision
```
**Key mechanism:**
The custom `Linear._load_from_state_dict()` method inspects each layer during model loading:
- If the layer name is **not** in `_layer_quant_config`: load weight as regular tensor in `_compute_dtype`
- If the layer name **is** in `_layer_quant_config`:
- Load weight as `QuantizedTensor` with the specified layout (e.g., `TensorCoreFP8Layout`)
- Load associated quantization parameters (scales, block_size, etc.)
**Why it's needed:**
Not all layers tolerate quantization equally. Sensitive operations like final projections can be kept in higher precision, while compute-heavy matmuls are quantized. This provides most of the performance benefits while maintaining quality.
The system is selected in `pick_operations()` when `model_config.layer_quant_config` is present, making it the highest-priority operation mode.
## Checkpoint Format
Quantized checkpoints are stored as standard safetensors files with quantized weight tensors and associated scaling parameters, plus a `_quantization_metadata` JSON entry describing the quantization scheme.
The quantized checkpoint will contain the same layers as the original checkpoint but:
- The weights are stored as quantized values, sometimes using a different storage datatype. E.g. uint8 container for fp8.
- For each quantized weight a number of additional scaling parameters are stored alongside depending on the recipe.
- We store a metadata.json in the metadata of the final safetensor containing the `_quantization_metadata` describing which layers are quantized and what layout has been used.
### Scaling Parameters details
We define 4 possible scaling parameters that should cover most recipes in the near-future:
- **weight_scale**: quantization scalers for the weights
- **weight_scale_2**: global scalers in the context of double scaling
- **pre_quant_scale**: scalers used for smoothing salient weights
- **input_scale**: quantization scalers for the activations
| Format | Storage dtype | weight_scale | weight_scale_2 | pre_quant_scale | input_scale |
|--------|---------------|--------------|----------------|-----------------|-------------|
| float8_e4m3fn | float32 | float32 (scalar) | - | - | float32 (scalar) |
You can find the defined formats in `comfy/quant_ops.py` (QUANT_ALGOS).
### Quantization Metadata
The metadata stored alongside the checkpoint contains:
- **format_version**: String to define a version of the standard
- **layers**: A dictionary mapping layer names to their quantization format. The format string maps to the definitions found in `QUANT_ALGOS`.
Example:
```json
{
"_quantization_metadata": {
"format_version": "1.0",
"layers": {
"model.layers.0.mlp.up_proj": "float8_e4m3fn",
"model.layers.0.mlp.down_proj": "float8_e4m3fn",
"model.layers.1.mlp.up_proj": "float8_e4m3fn"
}
}
}
```
## Creating Quantized Checkpoints
To create compatible checkpoints, use any quantization tool provided the output follows the checkpoint format described above and uses a layout defined in `QUANT_ALGOS`.
### Weight Quantization
Weight quantization is straightforward - compute the scaling factor directly from the weight tensor using the absolute maximum method described earlier. Each layer's weights are quantized independently and stored with their corresponding `weight_scale` parameter.
### Calibration (for Activation Quantization)
Activation quantization (e.g., for FP8 Tensor Core operations) requires `input_scale` parameters that cannot be determined from static weights alone. Since activation values depend on actual inputs, we use **post-training calibration (PTQ)**:
1. **Collect statistics**: Run inference on N representative samples
2. **Track activations**: Record the absolute maximum (`amax`) of inputs to each quantized layer
3. **Compute scales**: Derive `input_scale` from collected statistics
4. **Store in checkpoint**: Save `input_scale` parameters alongside weights
The calibration dataset should be representative of your target use case. For diffusion models, this typically means a diverse set of prompts and generation parameters.

100
README.md
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@@ -66,9 +66,6 @@ See what ComfyUI can do with the [example workflows](https://comfyanonymous.gith
- [Lumina Image 2.0](https://comfyanonymous.github.io/ComfyUI_examples/lumina2/)
- [HiDream](https://comfyanonymous.github.io/ComfyUI_examples/hidream/)
- [Qwen Image](https://comfyanonymous.github.io/ComfyUI_examples/qwen_image/)
- [Hunyuan Image 2.1](https://comfyanonymous.github.io/ComfyUI_examples/hunyuan_image/)
- [Flux 2](https://comfyanonymous.github.io/ComfyUI_examples/flux2/)
- [Z Image](https://comfyanonymous.github.io/ComfyUI_examples/z_image/)
- Image Editing Models
- [Omnigen 2](https://comfyanonymous.github.io/ComfyUI_examples/omnigen/)
- [Flux Kontext](https://comfyanonymous.github.io/ComfyUI_examples/flux/#flux-kontext-image-editing-model)
@@ -81,7 +78,6 @@ See what ComfyUI can do with the [example workflows](https://comfyanonymous.gith
- [Hunyuan Video](https://comfyanonymous.github.io/ComfyUI_examples/hunyuan_video/)
- [Wan 2.1](https://comfyanonymous.github.io/ComfyUI_examples/wan/)
- [Wan 2.2](https://comfyanonymous.github.io/ComfyUI_examples/wan22/)
- [Hunyuan Video 1.5](https://docs.comfy.org/tutorials/video/hunyuan/hunyuan-video-1-5)
- Audio Models
- [Stable Audio](https://comfyanonymous.github.io/ComfyUI_examples/audio/)
- [ACE Step](https://comfyanonymous.github.io/ComfyUI_examples/audio/)
@@ -108,21 +104,17 @@ See what ComfyUI can do with the [example workflows](https://comfyanonymous.gith
- [LCM models and Loras](https://comfyanonymous.github.io/ComfyUI_examples/lcm/)
- Latent previews with [TAESD](#how-to-show-high-quality-previews)
- Works fully offline: core will never download anything unless you want to.
- Optional API nodes to use paid models from external providers through the online [Comfy API](https://docs.comfy.org/tutorials/api-nodes/overview) disable with: `--disable-api-nodes`
- Optional API nodes to use paid models from external providers through the online [Comfy API](https://docs.comfy.org/tutorials/api-nodes/overview).
- [Config file](extra_model_paths.yaml.example) to set the search paths for models.
Workflow examples can be found on the [Examples page](https://comfyanonymous.github.io/ComfyUI_examples/)
## Release Process
ComfyUI follows a weekly release cycle targeting Monday but this regularly changes because of model releases or large changes to the codebase. There are three interconnected repositories:
ComfyUI follows a weekly release cycle targeting Friday but this regularly changes because of model releases or large changes to the codebase. There are three interconnected repositories:
1. **[ComfyUI Core](https://github.com/comfyanonymous/ComfyUI)**
- Releases a new stable version (e.g., v0.7.0) roughly every week.
- Starting from v0.4.0 patch versions will be used for fixes backported onto the current stable release.
- Minor versions will be used for releases off the master branch.
- Patch versions may still be used for releases on the master branch in cases where a backport would not make sense.
- Commits outside of the stable release tags may be very unstable and break many custom nodes.
- Releases a new stable version (e.g., v0.7.0)
- Serves as the foundation for the desktop release
2. **[ComfyUI Desktop](https://github.com/Comfy-Org/desktop)**
@@ -179,20 +171,10 @@ There is a portable standalone build for Windows that should work for running on
### [Direct link to download](https://github.com/comfyanonymous/ComfyUI/releases/latest/download/ComfyUI_windows_portable_nvidia.7z)
Simply download, extract with [7-Zip](https://7-zip.org) or with the windows explorer on recent windows versions and run. For smaller models you normally only need to put the checkpoints (the huge ckpt/safetensors files) in: ComfyUI\models\checkpoints but many of the larger models have multiple files. Make sure to follow the instructions to know which subfolder to put them in ComfyUI\models\
Simply download, extract with [7-Zip](https://7-zip.org) and run. Make sure you put your Stable Diffusion checkpoints/models (the huge ckpt/safetensors files) in: ComfyUI\models\checkpoints
If you have trouble extracting it, right click the file -> properties -> unblock
The portable above currently comes with python 3.13 and pytorch cuda 13.0. Update your Nvidia drivers if it doesn't start.
#### Alternative Downloads:
[Experimental portable for AMD GPUs](https://github.com/comfyanonymous/ComfyUI/releases/latest/download/ComfyUI_windows_portable_amd.7z)
[Portable with pytorch cuda 12.8 and python 3.12](https://github.com/comfyanonymous/ComfyUI/releases/latest/download/ComfyUI_windows_portable_nvidia_cu128.7z).
[Portable with pytorch cuda 12.6 and python 3.12](https://github.com/comfyanonymous/ComfyUI/releases/latest/download/ComfyUI_windows_portable_nvidia_cu126.7z) (Supports Nvidia 10 series and older GPUs).
#### How do I share models between another UI and ComfyUI?
See the [Config file](extra_model_paths.yaml.example) to set the search paths for models. In the standalone windows build you can find this file in the ComfyUI directory. Rename this file to extra_model_paths.yaml and edit it with your favorite text editor.
@@ -208,13 +190,7 @@ comfy install
## Manual Install (Windows, Linux)
Python 3.14 works but some custom nodes may have issues. The free threaded variant works but some dependencies will enable the GIL so it's not fully supported.
Python 3.13 is very well supported. If you have trouble with some custom node dependencies on 3.13 you can try 3.12
torch 2.4 and above is supported but some features and optimizations might only work on newer versions. We generally recommend using the latest major version of pytorch with the latest cuda version unless it is less than 2 weeks old.
### Instructions:
Python 3.13 is very well supported. If you have trouble with some custom node dependencies you can try 3.12
Git clone this repo.
@@ -223,36 +199,18 @@ Put your SD checkpoints (the huge ckpt/safetensors files) in: models/checkpoints
Put your VAE in: models/vae
### AMD GPUs (Linux)
### AMD GPUs (Linux only)
AMD users can install rocm and pytorch with pip if you don't have it already installed, this is the command to install the stable version:
```pip install torch torchvision torchaudio --index-url https://download.pytorch.org/whl/rocm6.4```
This is the command to install the nightly with ROCm 7.1 which might have some performance improvements:
This is the command to install the nightly with ROCm 6.4 which might have some performance improvements:
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/rocm7.1```
### AMD GPUs (Experimental: Windows and Linux), RDNA 3, 3.5 and 4 only.
These have less hardware support than the builds above but they work on windows. You also need to install the pytorch version specific to your hardware.
RDNA 3 (RX 7000 series):
```pip install --pre torch torchvision torchaudio --index-url https://rocm.nightlies.amd.com/v2/gfx110X-all/```
RDNA 3.5 (Strix halo/Ryzen AI Max+ 365):
```pip install --pre torch torchvision torchaudio --index-url https://rocm.nightlies.amd.com/v2/gfx1151/```
RDNA 4 (RX 9000 series):
```pip install --pre torch torchvision torchaudio --index-url https://rocm.nightlies.amd.com/v2/gfx120X-all/```
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/rocm6.4```
### Intel GPUs (Windows and Linux)
Intel Arc GPU users can install native PyTorch with torch.xpu support using pip. More information can be found [here](https://pytorch.org/docs/main/notes/get_start_xpu.html)
(Option 1) Intel Arc GPU users can install native PyTorch with torch.xpu support using pip. More information can be found [here](https://pytorch.org/docs/main/notes/get_start_xpu.html)
1. To install PyTorch xpu, use the following command:
@@ -262,15 +220,19 @@ This is the command to install the Pytorch xpu nightly which might have some per
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/xpu```
(Option 2) Alternatively, Intel GPUs supported by Intel Extension for PyTorch (IPEX) can leverage IPEX for improved performance.
1. visit [Installation](https://intel.github.io/intel-extension-for-pytorch/index.html#installation?platform=gpu) for more information.
### NVIDIA
Nvidia users should install stable pytorch using this command:
```pip install torch torchvision torchaudio --extra-index-url https://download.pytorch.org/whl/cu130```
```pip install torch torchvision torchaudio --extra-index-url https://download.pytorch.org/whl/cu129```
This is the command to install pytorch nightly instead which might have performance improvements.
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/cu130```
```pip install --pre torch torchvision torchaudio --index-url https://download.pytorch.org/whl/nightly/cu129```
#### Troubleshooting
@@ -301,6 +263,12 @@ You can install ComfyUI in Apple Mac silicon (M1 or M2) with any recent macOS ve
> **Note**: Remember to add your models, VAE, LoRAs etc. to the corresponding Comfy folders, as discussed in [ComfyUI manual installation](#manual-install-windows-linux).
#### DirectML (AMD Cards on Windows)
This is very badly supported and is not recommended. There are some unofficial builds of pytorch ROCm on windows that exist that will give you a much better experience than this. This readme will be updated once official pytorch ROCm builds for windows come out.
```pip install torch-directml``` Then you can launch ComfyUI with: ```python main.py --directml```
#### Ascend NPUs
For models compatible with Ascend Extension for PyTorch (torch_npu). To get started, ensure your environment meets the prerequisites outlined on the [installation](https://ascend.github.io/docs/sources/ascend/quick_install.html) page. Here's a step-by-step guide tailored to your platform and installation method:
@@ -325,32 +293,6 @@ For models compatible with Iluvatar Extension for PyTorch. Here's a step-by-step
1. Install the Iluvatar Corex Toolkit by adhering to the platform-specific instructions on the [Installation](https://support.iluvatar.com/#/DocumentCentre?id=1&nameCenter=2&productId=520117912052801536)
2. Launch ComfyUI by running `python main.py`
## [ComfyUI-Manager](https://github.com/Comfy-Org/ComfyUI-Manager/tree/manager-v4)
**ComfyUI-Manager** is an extension that allows you to easily install, update, and manage custom nodes for ComfyUI.
### Setup
1. Install the manager dependencies:
```bash
pip install -r manager_requirements.txt
```
2. Enable the manager with the `--enable-manager` flag when running ComfyUI:
```bash
python main.py --enable-manager
```
### Command Line Options
| Flag | Description |
|------|-------------|
| `--enable-manager` | Enable ComfyUI-Manager |
| `--enable-manager-legacy-ui` | Use the legacy manager UI instead of the new UI (requires `--enable-manager`) |
| `--disable-manager-ui` | Disable the manager UI and endpoints while keeping background features like security checks and scheduled installation completion (requires `--enable-manager`) |
# Running
```python main.py```

174
alembic_db/versions/0001_assets.py
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@@ -1,174 +0,0 @@
"""
Initial assets schema
Revision ID: 0001_assets
Revises: None
Create Date: 2025-12-10 00:00:00
"""
from alembic import op
import sqlalchemy as sa
revision = "0001_assets"
down_revision = None
branch_labels = None
depends_on = None
def upgrade() -> None:
# ASSETS: content identity
op.create_table(
"assets",
sa.Column("id", sa.String(length=36), primary_key=True),
sa.Column("hash", sa.String(length=256), nullable=True),
sa.Column("size_bytes", sa.BigInteger(), nullable=False, server_default="0"),
sa.Column("mime_type", sa.String(length=255), nullable=True),
sa.Column("created_at", sa.DateTime(timezone=False), nullable=False),
sa.CheckConstraint("size_bytes >= 0", name="ck_assets_size_nonneg"),
)
op.create_index("uq_assets_hash", "assets", ["hash"], unique=True)
op.create_index("ix_assets_mime_type", "assets", ["mime_type"])
# ASSETS_INFO: user-visible references
op.create_table(
"assets_info",
sa.Column("id", sa.String(length=36), primary_key=True),
sa.Column("owner_id", sa.String(length=128), nullable=False, server_default=""),
sa.Column("name", sa.String(length=512), nullable=False),
sa.Column("asset_id", sa.String(length=36), sa.ForeignKey("assets.id", ondelete="RESTRICT"), nullable=False),
sa.Column("preview_id", sa.String(length=36), sa.ForeignKey("assets.id", ondelete="SET NULL"), nullable=True),
sa.Column("user_metadata", sa.JSON(), nullable=True),
sa.Column("created_at", sa.DateTime(timezone=False), nullable=False),
sa.Column("updated_at", sa.DateTime(timezone=False), nullable=False),
sa.Column("last_access_time", sa.DateTime(timezone=False), nullable=False),
sa.UniqueConstraint("asset_id", "owner_id", "name", name="uq_assets_info_asset_owner_name"),
)
op.create_index("ix_assets_info_owner_id", "assets_info", ["owner_id"])
op.create_index("ix_assets_info_asset_id", "assets_info", ["asset_id"])
op.create_index("ix_assets_info_name", "assets_info", ["name"])
op.create_index("ix_assets_info_created_at", "assets_info", ["created_at"])
op.create_index("ix_assets_info_last_access_time", "assets_info", ["last_access_time"])
op.create_index("ix_assets_info_owner_name", "assets_info", ["owner_id", "name"])
# TAGS: normalized tag vocabulary
op.create_table(
"tags",
sa.Column("name", sa.String(length=512), primary_key=True),
sa.Column("tag_type", sa.String(length=32), nullable=False, server_default="user"),
sa.CheckConstraint("name = lower(name)", name="ck_tags_lowercase"),
)
op.create_index("ix_tags_tag_type", "tags", ["tag_type"])
# ASSET_INFO_TAGS: many-to-many for tags on AssetInfo
op.create_table(
"asset_info_tags",
sa.Column("asset_info_id", sa.String(length=36), sa.ForeignKey("assets_info.id", ondelete="CASCADE"), nullable=False),
sa.Column("tag_name", sa.String(length=512), sa.ForeignKey("tags.name", ondelete="RESTRICT"), nullable=False),
sa.Column("origin", sa.String(length=32), nullable=False, server_default="manual"),
sa.Column("added_at", sa.DateTime(timezone=False), nullable=False),
sa.PrimaryKeyConstraint("asset_info_id", "tag_name", name="pk_asset_info_tags"),
)
op.create_index("ix_asset_info_tags_tag_name", "asset_info_tags", ["tag_name"])
op.create_index("ix_asset_info_tags_asset_info_id", "asset_info_tags", ["asset_info_id"])
# ASSET_CACHE_STATE: N:1 local cache rows per Asset
op.create_table(
"asset_cache_state",
sa.Column("id", sa.Integer(), primary_key=True, autoincrement=True),
sa.Column("asset_id", sa.String(length=36), sa.ForeignKey("assets.id", ondelete="CASCADE"), nullable=False),
sa.Column("file_path", sa.Text(), nullable=False), # absolute local path to cached file
sa.Column("mtime_ns", sa.BigInteger(), nullable=True),
sa.Column("needs_verify", sa.Boolean(), nullable=False, server_default=sa.text("false")),
sa.CheckConstraint("(mtime_ns IS NULL) OR (mtime_ns >= 0)", name="ck_acs_mtime_nonneg"),
sa.UniqueConstraint("file_path", name="uq_asset_cache_state_file_path"),
)
op.create_index("ix_asset_cache_state_file_path", "asset_cache_state", ["file_path"])
op.create_index("ix_asset_cache_state_asset_id", "asset_cache_state", ["asset_id"])
# ASSET_INFO_META: typed KV projection of user_metadata for filtering/sorting
op.create_table(
"asset_info_meta",
sa.Column("asset_info_id", sa.String(length=36), sa.ForeignKey("assets_info.id", ondelete="CASCADE"), nullable=False),
sa.Column("key", sa.String(length=256), nullable=False),
sa.Column("ordinal", sa.Integer(), nullable=False, server_default="0"),
sa.Column("val_str", sa.String(length=2048), nullable=True),
sa.Column("val_num", sa.Numeric(38, 10), nullable=True),
sa.Column("val_bool", sa.Boolean(), nullable=True),
sa.Column("val_json", sa.JSON(), nullable=True),
sa.PrimaryKeyConstraint("asset_info_id", "key", "ordinal", name="pk_asset_info_meta"),
)
op.create_index("ix_asset_info_meta_key", "asset_info_meta", ["key"])
op.create_index("ix_asset_info_meta_key_val_str", "asset_info_meta", ["key", "val_str"])
op.create_index("ix_asset_info_meta_key_val_num", "asset_info_meta", ["key", "val_num"])
op.create_index("ix_asset_info_meta_key_val_bool", "asset_info_meta", ["key", "val_bool"])
# Tags vocabulary
tags_table = sa.table(
"tags",
sa.column("name", sa.String(length=512)),
sa.column("tag_type", sa.String()),
)
op.bulk_insert(
tags_table,
[
{"name": "models", "tag_type": "system"},
{"name": "input", "tag_type": "system"},
{"name": "output", "tag_type": "system"},
{"name": "configs", "tag_type": "system"},
{"name": "checkpoints", "tag_type": "system"},
{"name": "loras", "tag_type": "system"},
{"name": "vae", "tag_type": "system"},
{"name": "text_encoders", "tag_type": "system"},
{"name": "diffusion_models", "tag_type": "system"},
{"name": "clip_vision", "tag_type": "system"},
{"name": "style_models", "tag_type": "system"},
{"name": "embeddings", "tag_type": "system"},
{"name": "diffusers", "tag_type": "system"},
{"name": "vae_approx", "tag_type": "system"},
{"name": "controlnet", "tag_type": "system"},
{"name": "gligen", "tag_type": "system"},
{"name": "upscale_models", "tag_type": "system"},
{"name": "hypernetworks", "tag_type": "system"},
{"name": "photomaker", "tag_type": "system"},
{"name": "classifiers", "tag_type": "system"},
{"name": "encoder", "tag_type": "system"},
{"name": "decoder", "tag_type": "system"},
{"name": "missing", "tag_type": "system"},
{"name": "rescan", "tag_type": "system"},
],
)
def downgrade() -> None:
op.drop_index("ix_asset_info_meta_key_val_bool", table_name="asset_info_meta")
op.drop_index("ix_asset_info_meta_key_val_num", table_name="asset_info_meta")
op.drop_index("ix_asset_info_meta_key_val_str", table_name="asset_info_meta")
op.drop_index("ix_asset_info_meta_key", table_name="asset_info_meta")
op.drop_table("asset_info_meta")
op.drop_index("ix_asset_cache_state_asset_id", table_name="asset_cache_state")
op.drop_index("ix_asset_cache_state_file_path", table_name="asset_cache_state")
op.drop_constraint("uq_asset_cache_state_file_path", table_name="asset_cache_state")
op.drop_table("asset_cache_state")
op.drop_index("ix_asset_info_tags_asset_info_id", table_name="asset_info_tags")
op.drop_index("ix_asset_info_tags_tag_name", table_name="asset_info_tags")
op.drop_table("asset_info_tags")
op.drop_index("ix_tags_tag_type", table_name="tags")
op.drop_table("tags")
op.drop_constraint("uq_assets_info_asset_owner_name", table_name="assets_info")
op.drop_index("ix_assets_info_owner_name", table_name="assets_info")
op.drop_index("ix_assets_info_last_access_time", table_name="assets_info")
op.drop_index("ix_assets_info_created_at", table_name="assets_info")
op.drop_index("ix_assets_info_name", table_name="assets_info")
op.drop_index("ix_assets_info_asset_id", table_name="assets_info")
op.drop_index("ix_assets_info_owner_id", table_name="assets_info")
op.drop_table("assets_info")
op.drop_index("uq_assets_hash", table_name="assets")
op.drop_index("ix_assets_mime_type", table_name="assets")
op.drop_table("assets")

7
api_server/routes/internal/internal_routes.py
View File

@@ -58,13 +58,8 @@ class InternalRoutes:
return web.json_response({"error": "Invalid directory type"}, status=400)
directory = get_directory_by_type(directory_type)
def is_visible_file(entry: os.DirEntry) -> bool:
"""Filter out hidden files (e.g., .DS_Store on macOS)."""
return entry.is_file() and not entry.name.startswith('.')
sorted_files = sorted(
(entry for entry in os.scandir(directory) if is_visible_file(entry)),
(entry for entry in os.scandir(directory) if entry.is_file()),
key=lambda entry: -entry.stat().st_mtime
)
return web.json_response([entry.name for entry in sorted_files], status=200)

102
app/assets/api/routes.py
View File

@@ -1,102 +0,0 @@
import logging
import uuid
from aiohttp import web
from pydantic import ValidationError
import app.assets.manager as manager
from app import user_manager
from app.assets.api import schemas_in
from app.assets.helpers import get_query_dict
ROUTES = web.RouteTableDef()
USER_MANAGER: user_manager.UserManager | None = None
# UUID regex (canonical hyphenated form, case-insensitive)
UUID_RE = r"[0-9a-fA-F]{8}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{4}-[0-9a-fA-F]{12}"
def register_assets_system(app: web.Application, user_manager_instance: user_manager.UserManager) -> None:
global USER_MANAGER
USER_MANAGER = user_manager_instance
app.add_routes(ROUTES)
def _error_response(status: int, code: str, message: str, details: dict | None = None) -> web.Response:
return web.json_response({"error": {"code": code, "message": message, "details": details or {}}}, status=status)
def _validation_error_response(code: str, ve: ValidationError) -> web.Response:
return _error_response(400, code, "Validation failed.", {"errors": ve.json()})
@ROUTES.get("/api/assets")
async def list_assets(request: web.Request) -> web.Response:
"""
GET request to list assets.
"""
query_dict = get_query_dict(request)
try:
q = schemas_in.ListAssetsQuery.model_validate(query_dict)
except ValidationError as ve:
return _validation_error_response("INVALID_QUERY", ve)
payload = manager.list_assets(
include_tags=q.include_tags,
exclude_tags=q.exclude_tags,
name_contains=q.name_contains,
metadata_filter=q.metadata_filter,
limit=q.limit,
offset=q.offset,
sort=q.sort,
order=q.order,
owner_id=USER_MANAGER.get_request_user_id(request),
)
return web.json_response(payload.model_dump(mode="json"))
@ROUTES.get(f"/api/assets/{{id:{UUID_RE}}}")
async def get_asset(request: web.Request) -> web.Response:
"""
GET request to get an asset's info as JSON.
"""
asset_info_id = str(uuid.UUID(request.match_info["id"]))
try:
result = manager.get_asset(
asset_info_id=asset_info_id,
owner_id=USER_MANAGER.get_request_user_id(request),
)
except ValueError as e:
return _error_response(404, "ASSET_NOT_FOUND", str(e), {"id": asset_info_id})
except Exception:
logging.exception(
"get_asset failed for asset_info_id=%s, owner_id=%s",
asset_info_id,
USER_MANAGER.get_request_user_id(request),
)
return _error_response(500, "INTERNAL", "Unexpected server error.")
return web.json_response(result.model_dump(mode="json"), status=200)
@ROUTES.get("/api/tags")
async def get_tags(request: web.Request) -> web.Response:
"""
GET request to list all tags based on query parameters.
"""
query_map = dict(request.rel_url.query)
try:
query = schemas_in.TagsListQuery.model_validate(query_map)
except ValidationError as e:
return web.json_response(
{"error": {"code": "INVALID_QUERY", "message": "Invalid query parameters", "details": e.errors()}},
status=400,
)
result = manager.list_tags(
prefix=query.prefix,
limit=query.limit,
offset=query.offset,
order=query.order,
include_zero=query.include_zero,
owner_id=USER_MANAGER.get_request_user_id(request),
)
return web.json_response(result.model_dump(mode="json"))

94
app/assets/api/schemas_in.py
View File

@@ -1,94 +0,0 @@
import json
import uuid
from typing import Any, Literal
from pydantic import (
BaseModel,
ConfigDict,
Field,
conint,
field_validator,
)
class ListAssetsQuery(BaseModel):
include_tags: list[str] = Field(default_factory=list)
exclude_tags: list[str] = Field(default_factory=list)
name_contains: str | None = None
# Accept either a JSON string (query param) or a dict
metadata_filter: dict[str, Any] | None = None
limit: conint(ge=1, le=500) = 20
offset: conint(ge=0) = 0
sort: Literal["name", "created_at", "updated_at", "size", "last_access_time"] = "created_at"
order: Literal["asc", "desc"] = "desc"
@field_validator("include_tags", "exclude_tags", mode="before")
@classmethod
def _split_csv_tags(cls, v):
# Accept "a,b,c" or ["a","b"] (we are liberal in what we accept)
if v is None:
return []
if isinstance(v, str):
return [t.strip() for t in v.split(",") if t.strip()]
if isinstance(v, list):
out: list[str] = []
for item in v:
if isinstance(item, str):
out.extend([t.strip() for t in item.split(",") if t.strip()])
return out
return v
@field_validator("metadata_filter", mode="before")
@classmethod
def _parse_metadata_json(cls, v):
if v is None or isinstance(v, dict):
return v
if isinstance(v, str) and v.strip():
try:
parsed = json.loads(v)
except Exception as e:
raise ValueError(f"metadata_filter must be JSON: {e}") from e
if not isinstance(parsed, dict):
raise ValueError("metadata_filter must be a JSON object")
return parsed
return None
class TagsListQuery(BaseModel):
model_config = ConfigDict(extra="ignore", str_strip_whitespace=True)
prefix: str | None = Field(None, min_length=1, max_length=256)
limit: int = Field(100, ge=1, le=1000)
offset: int = Field(0, ge=0, le=10_000_000)
order: Literal["count_desc", "name_asc"] = "count_desc"
include_zero: bool = True
@field_validator("prefix")
@classmethod
def normalize_prefix(cls, v: str | None) -> str | None:
if v is None:
return v
v = v.strip()
return v.lower() or None
class SetPreviewBody(BaseModel):
"""Set or clear the preview for an AssetInfo. Provide an Asset.id or null."""
preview_id: str | None = None
@field_validator("preview_id", mode="before")
@classmethod
def _norm_uuid(cls, v):
if v is None:
return None
s = str(v).strip()
if not s:
return None
try:
uuid.UUID(s)
except Exception:
raise ValueError("preview_id must be a UUID")
return s

60
app/assets/api/schemas_out.py
View File

@@ -1,60 +0,0 @@
from datetime import datetime
from typing import Any
from pydantic import BaseModel, ConfigDict, Field, field_serializer
class AssetSummary(BaseModel):
id: str
name: str
asset_hash: str | None = None
size: int | None = None
mime_type: str | None = None
tags: list[str] = Field(default_factory=list)
preview_url: str | None = None
created_at: datetime | None = None
updated_at: datetime | None = None
last_access_time: datetime | None = None
model_config = ConfigDict(from_attributes=True)
@field_serializer("created_at", "updated_at", "last_access_time")
def _ser_dt(self, v: datetime | None, _info):
return v.isoformat() if v else None
class AssetsList(BaseModel):
assets: list[AssetSummary]
total: int
has_more: bool
class AssetDetail(BaseModel):
id: str
name: str
asset_hash: str | None = None
size: int | None = None
mime_type: str | None = None
tags: list[str] = Field(default_factory=list)
user_metadata: dict[str, Any] = Field(default_factory=dict)
preview_id: str | None = None
created_at: datetime | None = None
last_access_time: datetime | None = None
model_config = ConfigDict(from_attributes=True)
@field_serializer("created_at", "last_access_time")
def _ser_dt(self, v: datetime | None, _info):
return v.isoformat() if v else None
class TagUsage(BaseModel):
name: str
count: int
type: str
class TagsList(BaseModel):
tags: list[TagUsage] = Field(default_factory=list)
total: int
has_more: bool

204
app/assets/database/bulk_ops.py
View File

@@ -1,204 +0,0 @@
import os
import uuid
import sqlalchemy
from typing import Iterable
from sqlalchemy.orm import Session
from sqlalchemy.dialects import sqlite
from app.assets.helpers import utcnow
from app.assets.database.models import Asset, AssetCacheState, AssetInfo, AssetInfoTag, AssetInfoMeta
MAX_BIND_PARAMS = 800
def _chunk_rows(rows: list[dict], cols_per_row: int, max_bind_params: int) -> Iterable[list[dict]]:
if not rows:
return []
rows_per_stmt = max(1, max_bind_params // max(1, cols_per_row))
for i in range(0, len(rows), rows_per_stmt):
yield rows[i:i + rows_per_stmt]
def _iter_chunks(seq, n: int):
for i in range(0, len(seq), n):
yield seq[i:i + n]
def _rows_per_stmt(cols: int) -> int:
return max(1, MAX_BIND_PARAMS // max(1, cols))
def seed_from_paths_batch(
session: Session,
*,
specs: list[dict],
owner_id: str = "",
) -> dict:
"""Each spec is a dict with keys:
- abs_path: str
- size_bytes: int
- mtime_ns: int
- info_name: str
- tags: list[str]
- fname: Optional[str]
"""
if not specs:
return {"inserted_infos": 0, "won_states": 0, "lost_states": 0}
now = utcnow()
asset_rows: list[dict] = []
state_rows: list[dict] = []
path_to_asset: dict[str, str] = {}
asset_to_info: dict[str, dict] = {} # asset_id -> prepared info row
path_list: list[str] = []
for sp in specs:
ap = os.path.abspath(sp["abs_path"])
aid = str(uuid.uuid4())
iid = str(uuid.uuid4())
path_list.append(ap)
path_to_asset[ap] = aid
asset_rows.append(
{
"id": aid,
"hash": None,
"size_bytes": sp["size_bytes"],
"mime_type": None,
"created_at": now,
}
)
state_rows.append(
{
"asset_id": aid,
"file_path": ap,
"mtime_ns": sp["mtime_ns"],
}
)
asset_to_info[aid] = {
"id": iid,
"owner_id": owner_id,
"name": sp["info_name"],
"asset_id": aid,
"preview_id": None,
"user_metadata": {"filename": sp["fname"]} if sp["fname"] else None,
"created_at": now,
"updated_at": now,
"last_access_time": now,
"_tags": sp["tags"],
"_filename": sp["fname"],
}
# insert all seed Assets (hash=NULL)
ins_asset = sqlite.insert(Asset)
for chunk in _iter_chunks(asset_rows, _rows_per_stmt(5)):
session.execute(ins_asset, chunk)
# try to claim AssetCacheState (file_path)
# Insert with ON CONFLICT DO NOTHING, then query to find which paths were actually inserted
ins_state = (
sqlite.insert(AssetCacheState)
.on_conflict_do_nothing(index_elements=[AssetCacheState.file_path])
)
for chunk in _iter_chunks(state_rows, _rows_per_stmt(3)):
session.execute(ins_state, chunk)
# Query to find which of our paths won (were actually inserted)
winners_by_path: set[str] = set()
for chunk in _iter_chunks(path_list, MAX_BIND_PARAMS):
result = session.execute(
sqlalchemy.select(AssetCacheState.file_path)
.where(AssetCacheState.file_path.in_(chunk))
.where(AssetCacheState.asset_id.in_([path_to_asset[p] for p in chunk]))
)
winners_by_path.update(result.scalars().all())
all_paths_set = set(path_list)
losers_by_path = all_paths_set - winners_by_path
lost_assets = [path_to_asset[p] for p in losers_by_path]
if lost_assets: # losers get their Asset removed
for id_chunk in _iter_chunks(lost_assets, MAX_BIND_PARAMS):
session.execute(sqlalchemy.delete(Asset).where(Asset.id.in_(id_chunk)))
if not winners_by_path:
return {"inserted_infos": 0, "won_states": 0, "lost_states": len(losers_by_path)}
# insert AssetInfo only for winners
# Insert with ON CONFLICT DO NOTHING, then query to find which were actually inserted
winner_info_rows = [asset_to_info[path_to_asset[p]] for p in winners_by_path]
ins_info = (
sqlite.insert(AssetInfo)
.on_conflict_do_nothing(index_elements=[AssetInfo.asset_id, AssetInfo.owner_id, AssetInfo.name])
)
for chunk in _iter_chunks(winner_info_rows, _rows_per_stmt(9)):
session.execute(ins_info, chunk)
# Query to find which info rows were actually inserted (by matching our generated IDs)
all_info_ids = [row["id"] for row in winner_info_rows]
inserted_info_ids: set[str] = set()
for chunk in _iter_chunks(all_info_ids, MAX_BIND_PARAMS):
result = session.execute(
sqlalchemy.select(AssetInfo.id).where(AssetInfo.id.in_(chunk))
)
inserted_info_ids.update(result.scalars().all())
# build and insert tag + meta rows for the AssetInfo
tag_rows: list[dict] = []
meta_rows: list[dict] = []
if inserted_info_ids:
for row in winner_info_rows:
iid = row["id"]
if iid not in inserted_info_ids:
continue
for t in row["_tags"]:
tag_rows.append({
"asset_info_id": iid,
"tag_name": t,
"origin": "automatic",
"added_at": now,
})
if row["_filename"]:
meta_rows.append(
{
"asset_info_id": iid,
"key": "filename",
"ordinal": 0,
"val_str": row["_filename"],
"val_num": None,
"val_bool": None,
"val_json": None,
}
)
bulk_insert_tags_and_meta(session, tag_rows=tag_rows, meta_rows=meta_rows, max_bind_params=MAX_BIND_PARAMS)
return {
"inserted_infos": len(inserted_info_ids),
"won_states": len(winners_by_path),
"lost_states": len(losers_by_path),
}
def bulk_insert_tags_and_meta(
session: Session,
*,
tag_rows: list[dict],
meta_rows: list[dict],
max_bind_params: int,
) -> None:
"""Batch insert into asset_info_tags and asset_info_meta with ON CONFLICT DO NOTHING.
- tag_rows keys: asset_info_id, tag_name, origin, added_at
- meta_rows keys: asset_info_id, key, ordinal, val_str, val_num, val_bool, val_json
"""
if tag_rows:
ins_links = (
sqlite.insert(AssetInfoTag)
.on_conflict_do_nothing(index_elements=[AssetInfoTag.asset_info_id, AssetInfoTag.tag_name])
)
for chunk in _chunk_rows(tag_rows, cols_per_row=4, max_bind_params=max_bind_params):
session.execute(ins_links, chunk)
if meta_rows:
ins_meta = (
sqlite.insert(AssetInfoMeta)
.on_conflict_do_nothing(
index_elements=[AssetInfoMeta.asset_info_id, AssetInfoMeta.key, AssetInfoMeta.ordinal]
)
)
for chunk in _chunk_rows(meta_rows, cols_per_row=7, max_bind_params=max_bind_params):
session.execute(ins_meta, chunk)

233
app/assets/database/models.py
View File

@@ -1,233 +0,0 @@
from __future__ import annotations
import uuid
from datetime import datetime
from typing import Any
from sqlalchemy import (
JSON,
BigInteger,
Boolean,
CheckConstraint,
DateTime,
ForeignKey,
Index,
Integer,
Numeric,
String,
Text,
UniqueConstraint,
)
from sqlalchemy.orm import Mapped, foreign, mapped_column, relationship
from app.assets.helpers import utcnow
from app.database.models import to_dict, Base
class Asset(Base):
__tablename__ = "assets"
id: Mapped[str] = mapped_column(String(36), primary_key=True, default=lambda: str(uuid.uuid4()))
hash: Mapped[str | None] = mapped_column(String(256), nullable=True)
size_bytes: Mapped[int] = mapped_column(BigInteger, nullable=False, default=0)
mime_type: Mapped[str | None] = mapped_column(String(255))
created_at: Mapped[datetime] = mapped_column(
DateTime(timezone=False), nullable=False, default=utcnow
)
infos: Mapped[list[AssetInfo]] = relationship(
"AssetInfo",
back_populates="asset",
primaryjoin=lambda: Asset.id == foreign(AssetInfo.asset_id),
foreign_keys=lambda: [AssetInfo.asset_id],
cascade="all,delete-orphan",
passive_deletes=True,
)
preview_of: Mapped[list[AssetInfo]] = relationship(
"AssetInfo",
back_populates="preview_asset",
primaryjoin=lambda: Asset.id == foreign(AssetInfo.preview_id),
foreign_keys=lambda: [AssetInfo.preview_id],
viewonly=True,
)
cache_states: Mapped[list[AssetCacheState]] = relationship(
back_populates="asset",
cascade="all, delete-orphan",
passive_deletes=True,
)
__table_args__ = (
Index("uq_assets_hash", "hash", unique=True),
Index("ix_assets_mime_type", "mime_type"),
CheckConstraint("size_bytes >= 0", name="ck_assets_size_nonneg"),
)
def to_dict(self, include_none: bool = False) -> dict[str, Any]:
return to_dict(self, include_none=include_none)
def __repr__(self) -> str:
return f"<Asset id={self.id} hash={(self.hash or '')[:12]}>"
class AssetCacheState(Base):
__tablename__ = "asset_cache_state"
id: Mapped[int] = mapped_column(Integer, primary_key=True, autoincrement=True)
asset_id: Mapped[str] = mapped_column(String(36), ForeignKey("assets.id", ondelete="CASCADE"), nullable=False)
file_path: Mapped[str] = mapped_column(Text, nullable=False)
mtime_ns: Mapped[int | None] = mapped_column(BigInteger, nullable=True)
needs_verify: Mapped[bool] = mapped_column(Boolean, nullable=False, default=False)
asset: Mapped[Asset] = relationship(back_populates="cache_states")
__table_args__ = (
Index("ix_asset_cache_state_file_path", "file_path"),
Index("ix_asset_cache_state_asset_id", "asset_id"),
CheckConstraint("(mtime_ns IS NULL) OR (mtime_ns >= 0)", name="ck_acs_mtime_nonneg"),
UniqueConstraint("file_path", name="uq_asset_cache_state_file_path"),
)
def to_dict(self, include_none: bool = False) -> dict[str, Any]:
return to_dict(self, include_none=include_none)
def __repr__(self) -> str:
return f"<AssetCacheState id={self.id} asset_id={self.asset_id} path={self.file_path!r}>"
class AssetInfo(Base):
__tablename__ = "assets_info"
id: Mapped[str] = mapped_column(String(36), primary_key=True, default=lambda: str(uuid.uuid4()))
owner_id: Mapped[str] = mapped_column(String(128), nullable=False, default="")
name: Mapped[str] = mapped_column(String(512), nullable=False)
asset_id: Mapped[str] = mapped_column(String(36), ForeignKey("assets.id", ondelete="RESTRICT"), nullable=False)
preview_id: Mapped[str | None] = mapped_column(String(36), ForeignKey("assets.id", ondelete="SET NULL"))
user_metadata: Mapped[dict[str, Any] | None] = mapped_column(JSON(none_as_null=True))
created_at: Mapped[datetime] = mapped_column(DateTime(timezone=False), nullable=False, default=utcnow)
updated_at: Mapped[datetime] = mapped_column(DateTime(timezone=False), nullable=False, default=utcnow)
last_access_time: Mapped[datetime] = mapped_column(DateTime(timezone=False), nullable=False, default=utcnow)
asset: Mapped[Asset] = relationship(
"Asset",
back_populates="infos",
foreign_keys=[asset_id],
lazy="selectin",
)
preview_asset: Mapped[Asset | None] = relationship(
"Asset",
back_populates="preview_of",
foreign_keys=[preview_id],
)
metadata_entries: Mapped[list[AssetInfoMeta]] = relationship(
back_populates="asset_info",
cascade="all,delete-orphan",
passive_deletes=True,
)
tag_links: Mapped[list[AssetInfoTag]] = relationship(
back_populates="asset_info",
cascade="all,delete-orphan",
passive_deletes=True,
overlaps="tags,asset_infos",
)
tags: Mapped[list[Tag]] = relationship(
secondary="asset_info_tags",
back_populates="asset_infos",
lazy="selectin",
viewonly=True,
overlaps="tag_links,asset_info_links,asset_infos,tag",
)
__table_args__ = (
UniqueConstraint("asset_id", "owner_id", "name", name="uq_assets_info_asset_owner_name"),
Index("ix_assets_info_owner_name", "owner_id", "name"),
Index("ix_assets_info_owner_id", "owner_id"),
Index("ix_assets_info_asset_id", "asset_id"),
Index("ix_assets_info_name", "name"),
Index("ix_assets_info_created_at", "created_at"),
Index("ix_assets_info_last_access_time", "last_access_time"),
)
def to_dict(self, include_none: bool = False) -> dict[str, Any]:
data = to_dict(self, include_none=include_none)
data["tags"] = [t.name for t in self.tags]
return data
def __repr__(self) -> str:
return f"<AssetInfo id={self.id} name={self.name!r} asset_id={self.asset_id}>"
class AssetInfoMeta(Base):
__tablename__ = "asset_info_meta"
asset_info_id: Mapped[str] = mapped_column(
String(36), ForeignKey("assets_info.id", ondelete="CASCADE"), primary_key=True
)
key: Mapped[str] = mapped_column(String(256), primary_key=True)
ordinal: Mapped[int] = mapped_column(Integer, primary_key=True, default=0)
val_str: Mapped[str | None] = mapped_column(String(2048), nullable=True)
val_num: Mapped[float | None] = mapped_column(Numeric(38, 10), nullable=True)
val_bool: Mapped[bool | None] = mapped_column(Boolean, nullable=True)
val_json: Mapped[Any | None] = mapped_column(JSON(none_as_null=True), nullable=True)
asset_info: Mapped[AssetInfo] = relationship(back_populates="metadata_entries")
__table_args__ = (
Index("ix_asset_info_meta_key", "key"),
Index("ix_asset_info_meta_key_val_str", "key", "val_str"),
Index("ix_asset_info_meta_key_val_num", "key", "val_num"),
Index("ix_asset_info_meta_key_val_bool", "key", "val_bool"),
)
class AssetInfoTag(Base):
__tablename__ = "asset_info_tags"
asset_info_id: Mapped[str] = mapped_column(
String(36), ForeignKey("assets_info.id", ondelete="CASCADE"), primary_key=True
)
tag_name: Mapped[str] = mapped_column(
String(512), ForeignKey("tags.name", ondelete="RESTRICT"), primary_key=True
)
origin: Mapped[str] = mapped_column(String(32), nullable=False, default="manual")
added_at: Mapped[datetime] = mapped_column(
DateTime(timezone=False), nullable=False, default=utcnow
)
asset_info: Mapped[AssetInfo] = relationship(back_populates="tag_links")
tag: Mapped[Tag] = relationship(back_populates="asset_info_links")
__table_args__ = (
Index("ix_asset_info_tags_tag_name", "tag_name"),
Index("ix_asset_info_tags_asset_info_id", "asset_info_id"),
)
class Tag(Base):
__tablename__ = "tags"
name: Mapped[str] = mapped_column(String(512), primary_key=True)
tag_type: Mapped[str] = mapped_column(String(32), nullable=False, default="user")
asset_info_links: Mapped[list[AssetInfoTag]] = relationship(
back_populates="tag",
overlaps="asset_infos,tags",
)
asset_infos: Mapped[list[AssetInfo]] = relationship(
secondary="asset_info_tags",
back_populates="tags",
viewonly=True,
overlaps="asset_info_links,tag_links,tags,asset_info",
)
__table_args__ = (
Index("ix_tags_tag_type", "tag_type"),
)
def __repr__(self) -> str:
return f"<Tag {self.name}>"

267
app/assets/database/queries.py
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import sqlalchemy as sa
from collections import defaultdict
from sqlalchemy import select, exists, func
from sqlalchemy.orm import Session, contains_eager, noload
from app.assets.database.models import Asset, AssetInfo, AssetInfoMeta, AssetInfoTag, Tag
from app.assets.helpers import escape_like_prefix, normalize_tags
from typing import Sequence
def visible_owner_clause(owner_id: str) -> sa.sql.ClauseElement:
"""Build owner visibility predicate for reads. Owner-less rows are visible to everyone."""
owner_id = (owner_id or "").strip()
if owner_id == "":
return AssetInfo.owner_id == ""
return AssetInfo.owner_id.in_(["", owner_id])
def apply_tag_filters(
stmt: sa.sql.Select,
include_tags: Sequence[str] | None = None,
exclude_tags: Sequence[str] | None = None,
) -> sa.sql.Select:
"""include_tags: every tag must be present; exclude_tags: none may be present."""
include_tags = normalize_tags(include_tags)
exclude_tags = normalize_tags(exclude_tags)
if include_tags:
for tag_name in include_tags:
stmt = stmt.where(
exists().where(
(AssetInfoTag.asset_info_id == AssetInfo.id)
& (AssetInfoTag.tag_name == tag_name)
)
)
if exclude_tags:
stmt = stmt.where(
~exists().where(
(AssetInfoTag.asset_info_id == AssetInfo.id)
& (AssetInfoTag.tag_name.in_(exclude_tags))
)
)
return stmt
def apply_metadata_filter(
stmt: sa.sql.Select,
metadata_filter: dict | None = None,
) -> sa.sql.Select:
"""Apply filters using asset_info_meta projection table."""
if not metadata_filter:
return stmt
def _exists_for_pred(key: str, *preds) -> sa.sql.ClauseElement:
return sa.exists().where(
AssetInfoMeta.asset_info_id == AssetInfo.id,
AssetInfoMeta.key == key,
*preds,
)
def _exists_clause_for_value(key: str, value) -> sa.sql.ClauseElement:
if value is None:
no_row_for_key = sa.not_(
sa.exists().where(
AssetInfoMeta.asset_info_id == AssetInfo.id,
AssetInfoMeta.key == key,
)
)
null_row = _exists_for_pred(
key,
AssetInfoMeta.val_json.is_(None),
AssetInfoMeta.val_str.is_(None),
AssetInfoMeta.val_num.is_(None),
AssetInfoMeta.val_bool.is_(None),
)
return sa.or_(no_row_for_key, null_row)
if isinstance(value, bool):
return _exists_for_pred(key, AssetInfoMeta.val_bool == bool(value))
if isinstance(value, (int, float)):
from decimal import Decimal
num = value if isinstance(value, Decimal) else Decimal(str(value))
return _exists_for_pred(key, AssetInfoMeta.val_num == num)
if isinstance(value, str):
return _exists_for_pred(key, AssetInfoMeta.val_str == value)
return _exists_for_pred(key, AssetInfoMeta.val_json == value)
for k, v in metadata_filter.items():
if isinstance(v, list):
ors = [_exists_clause_for_value(k, elem) for elem in v]
if ors:
stmt = stmt.where(sa.or_(*ors))
else:
stmt = stmt.where(_exists_clause_for_value(k, v))
return stmt
def asset_exists_by_hash(session: Session, asset_hash: str) -> bool:
"""
Check if an asset with a given hash exists in database.
"""
row = (
session.execute(
select(sa.literal(True)).select_from(Asset).where(Asset.hash == asset_hash).limit(1)
)
).first()
return row is not None
def get_asset_info_by_id(session: Session, asset_info_id: str) -> AssetInfo | None:
return session.get(AssetInfo, asset_info_id)
def list_asset_infos_page(
session: Session,
owner_id: str = "",
include_tags: Sequence[str] | None = None,
exclude_tags: Sequence[str] | None = None,
name_contains: str | None = None,
metadata_filter: dict | None = None,
limit: int = 20,
offset: int = 0,
sort: str = "created_at",
order: str = "desc",
) -> tuple[list[AssetInfo], dict[str, list[str]], int]:
base = (
select(AssetInfo)
.join(Asset, Asset.id == AssetInfo.asset_id)
.options(contains_eager(AssetInfo.asset), noload(AssetInfo.tags))
.where(visible_owner_clause(owner_id))
)
if name_contains:
escaped, esc = escape_like_prefix(name_contains)
base = base.where(AssetInfo.name.ilike(f"%{escaped}%", escape=esc))
base = apply_tag_filters(base, include_tags, exclude_tags)
base = apply_metadata_filter(base, metadata_filter)
sort = (sort or "created_at").lower()
order = (order or "desc").lower()
sort_map = {
"name": AssetInfo.name,
"created_at": AssetInfo.created_at,
"updated_at": AssetInfo.updated_at,
"last_access_time": AssetInfo.last_access_time,
"size": Asset.size_bytes,
}
sort_col = sort_map.get(sort, AssetInfo.created_at)
sort_exp = sort_col.desc() if order == "desc" else sort_col.asc()
base = base.order_by(sort_exp).limit(limit).offset(offset)
count_stmt = (
select(sa.func.count())
.select_from(AssetInfo)
.join(Asset, Asset.id == AssetInfo.asset_id)
.where(visible_owner_clause(owner_id))
)
if name_contains:
escaped, esc = escape_like_prefix(name_contains)
count_stmt = count_stmt.where(AssetInfo.name.ilike(f"%{escaped}%", escape=esc))
count_stmt = apply_tag_filters(count_stmt, include_tags, exclude_tags)
count_stmt = apply_metadata_filter(count_stmt, metadata_filter)
total = int((session.execute(count_stmt)).scalar_one() or 0)
infos = (session.execute(base)).unique().scalars().all()
id_list: list[str] = [i.id for i in infos]
tag_map: dict[str, list[str]] = defaultdict(list)
if id_list:
rows = session.execute(
select(AssetInfoTag.asset_info_id, Tag.name)
.join(Tag, Tag.name == AssetInfoTag.tag_name)
.where(AssetInfoTag.asset_info_id.in_(id_list))
)
for aid, tag_name in rows.all():
tag_map[aid].append(tag_name)
return infos, tag_map, total
def fetch_asset_info_asset_and_tags(
session: Session,
asset_info_id: str,
owner_id: str = "",
) -> tuple[AssetInfo, Asset, list[str]] | None:
stmt = (
select(AssetInfo, Asset, Tag.name)
.join(Asset, Asset.id == AssetInfo.asset_id)
.join(AssetInfoTag, AssetInfoTag.asset_info_id == AssetInfo.id, isouter=True)
.join(Tag, Tag.name == AssetInfoTag.tag_name, isouter=True)
.where(
AssetInfo.id == asset_info_id,
visible_owner_clause(owner_id),
)
.options(noload(AssetInfo.tags))
.order_by(Tag.name.asc())
)
rows = (session.execute(stmt)).all()
if not rows:
return None
first_info, first_asset, _ = rows[0]
tags: list[str] = []
seen: set[str] = set()
for _info, _asset, tag_name in rows:
if tag_name and tag_name not in seen:
seen.add(tag_name)
tags.append(tag_name)
return first_info, first_asset, tags
def list_tags_with_usage(
session: Session,
prefix: str | None = None,
limit: int = 100,
offset: int = 0,
include_zero: bool = True,
order: str = "count_desc",
owner_id: str = "",
) -> tuple[list[tuple[str, str, int]], int]:
counts_sq = (
select(
AssetInfoTag.tag_name.label("tag_name"),
func.count(AssetInfoTag.asset_info_id).label("cnt"),
)
.select_from(AssetInfoTag)
.join(AssetInfo, AssetInfo.id == AssetInfoTag.asset_info_id)
.where(visible_owner_clause(owner_id))
.group_by(AssetInfoTag.tag_name)
.subquery()
)
q = (
select(
Tag.name,
Tag.tag_type,
func.coalesce(counts_sq.c.cnt, 0).label("count"),
)
.select_from(Tag)
.join(counts_sq, counts_sq.c.tag_name == Tag.name, isouter=True)
)
if prefix:
escaped, esc = escape_like_prefix(prefix.strip().lower())
q = q.where(Tag.name.like(escaped + "%", escape=esc))
if not include_zero:
q = q.where(func.coalesce(counts_sq.c.cnt, 0) > 0)
if order == "name_asc":
q = q.order_by(Tag.name.asc())
else:
q = q.order_by(func.coalesce(counts_sq.c.cnt, 0).desc(), Tag.name.asc())
total_q = select(func.count()).select_from(Tag)
if prefix:
escaped, esc = escape_like_prefix(prefix.strip().lower())
total_q = total_q.where(Tag.name.like(escaped + "%", escape=esc))
if not include_zero:
total_q = total_q.where(
Tag.name.in_(select(AssetInfoTag.tag_name).group_by(AssetInfoTag.tag_name))
)
rows = (session.execute(q.limit(limit).offset(offset))).all()
total = (session.execute(total_q)).scalar_one()
rows_norm = [(name, ttype, int(count or 0)) for (name, ttype, count) in rows]
return rows_norm, int(total or 0)

62
app/assets/database/tags.py
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from typing import Iterable
import sqlalchemy
from sqlalchemy.orm import Session
from sqlalchemy.dialects import sqlite
from app.assets.helpers import normalize_tags, utcnow
from app.assets.database.models import Tag, AssetInfoTag, AssetInfo
def ensure_tags_exist(session: Session, names: Iterable[str], tag_type: str = "user") -> None:
wanted = normalize_tags(list(names))
if not wanted:
return
rows = [{"name": n, "tag_type": tag_type} for n in list(dict.fromkeys(wanted))]
ins = (
sqlite.insert(Tag)
.values(rows)
.on_conflict_do_nothing(index_elements=[Tag.name])
)
return session.execute(ins)
def add_missing_tag_for_asset_id(
session: Session,
*,
asset_id: str,
origin: str = "automatic",
) -> None:
select_rows = (
sqlalchemy.select(
AssetInfo.id.label("asset_info_id"),
sqlalchemy.literal("missing").label("tag_name"),
sqlalchemy.literal(origin).label("origin"),
sqlalchemy.literal(utcnow()).label("added_at"),
)
.where(AssetInfo.asset_id == asset_id)
.where(
sqlalchemy.not_(
sqlalchemy.exists().where((AssetInfoTag.asset_info_id == AssetInfo.id) & (AssetInfoTag.tag_name == "missing"))
)
)
)
session.execute(
sqlite.insert(AssetInfoTag)
.from_select(
["asset_info_id", "tag_name", "origin", "added_at"],
select_rows,
)
.on_conflict_do_nothing(index_elements=[AssetInfoTag.asset_info_id, AssetInfoTag.tag_name])
)
def remove_missing_tag_for_asset_id(
session: Session,
*,
asset_id: str,
) -> None:
session.execute(
sqlalchemy.delete(AssetInfoTag).where(
AssetInfoTag.asset_info_id.in_(sqlalchemy.select(AssetInfo.id).where(AssetInfo.asset_id == asset_id)),
AssetInfoTag.tag_name == "missing",
)
)

75
app/assets/hashing.py
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from blake3 import blake3
from typing import IO
import os
import asyncio
DEFAULT_CHUNK = 8 * 1024 *1024 # 8MB
# NOTE: this allows hashing different representations of a file-like object
def blake3_hash(
fp: str | IO[bytes],
chunk_size: int = DEFAULT_CHUNK,
) -> str:
"""
Returns a BLAKE3 hex digest for ``fp``, which may be:
- a filename (str/bytes) or PathLike
- an open binary file object
If ``fp`` is a file object, it must be opened in **binary** mode and support
``read``, ``seek``, and ``tell``. The function will seek to the start before
reading and will attempt to restore the original position afterward.
"""
# duck typing to check if input is a file-like object
if hasattr(fp, "read"):
return _hash_file_obj(fp, chunk_size)
with open(os.fspath(fp), "rb") as f:
return _hash_file_obj(f, chunk_size)
async def blake3_hash_async(
fp: str | IO[bytes],
chunk_size: int = DEFAULT_CHUNK,
) -> str:
"""Async wrapper for ``blake3_hash_sync``.
Uses a worker thread so the event loop remains responsive.
"""
# If it is a path, open inside the worker thread to keep I/O off the loop.
if hasattr(fp, "read"):
return await asyncio.to_thread(blake3_hash, fp, chunk_size)
def _worker() -> str:
with open(os.fspath(fp), "rb") as f:
return _hash_file_obj(f, chunk_size)
return await asyncio.to_thread(_worker)
def _hash_file_obj(file_obj: IO, chunk_size: int = DEFAULT_CHUNK) -> str:
"""
Hash an already-open binary file object by streaming in chunks.
- Seeks to the beginning before reading (if supported).
- Restores the original position afterward (if tell/seek are supported).
"""
if chunk_size <= 0:
chunk_size = DEFAULT_CHUNK
# in case file object is already open and not at the beginning, track so can be restored after hashing
orig_pos = file_obj.tell()
try:
# seek to the beginning before reading
if orig_pos != 0:
file_obj.seek(0)
h = blake3()
while True:
chunk = file_obj.read(chunk_size)
if not chunk:
break
h.update(chunk)
return h.hexdigest()
finally:
# restore original position in file object, if needed
if orig_pos != 0:
file_obj.seek(orig_pos)

217
app/assets/helpers.py
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@@ -1,217 +0,0 @@
import contextlib
import os
from aiohttp import web
from datetime import datetime, timezone
from pathlib import Path
from typing import Literal, Any
import folder_paths
RootType = Literal["models", "input", "output"]
ALLOWED_ROOTS: tuple[RootType, ...] = ("models", "input", "output")
def get_query_dict(request: web.Request) -> dict[str, Any]:
"""
Gets a dictionary of query parameters from the request.
'request.query' is a MultiMapping[str], needs to be converted to a dictionary to be validated by Pydantic.
"""
query_dict = {
key: request.query.getall(key) if len(request.query.getall(key)) > 1 else request.query.get(key)
for key in request.query.keys()
}
return query_dict
def list_tree(base_dir: str) -> list[str]:
out: list[str] = []
base_abs = os.path.abspath(base_dir)
if not os.path.isdir(base_abs):
return out
for dirpath, _subdirs, filenames in os.walk(base_abs, topdown=True, followlinks=False):
for name in filenames:
out.append(os.path.abspath(os.path.join(dirpath, name)))
return out
def prefixes_for_root(root: RootType) -> list[str]:
if root == "models":
bases: list[str] = []
for _bucket, paths in get_comfy_models_folders():
bases.extend(paths)
return [os.path.abspath(p) for p in bases]
if root == "input":
return [os.path.abspath(folder_paths.get_input_directory())]
if root == "output":
return [os.path.abspath(folder_paths.get_output_directory())]
return []
def escape_like_prefix(s: str, escape: str = "!") -> tuple[str, str]:
"""Escapes %, _ and the escape char itself in a LIKE prefix.
Returns (escaped_prefix, escape_char). Caller should append '%' and pass escape=escape_char to .like().
"""
s = s.replace(escape, escape + escape) # escape the escape char first
s = s.replace("%", escape + "%").replace("_", escape + "_") # escape LIKE wildcards
return s, escape
def fast_asset_file_check(
*,
mtime_db: int | None,
size_db: int | None,
stat_result: os.stat_result,
) -> bool:
if mtime_db is None:
return False
actual_mtime_ns = getattr(stat_result, "st_mtime_ns", int(stat_result.st_mtime * 1_000_000_000))
if int(mtime_db) != int(actual_mtime_ns):
return False
sz = int(size_db or 0)
if sz > 0:
return int(stat_result.st_size) == sz
return True
def utcnow() -> datetime:
"""Naive UTC timestamp (no tzinfo). We always treat DB datetimes as UTC."""
return datetime.now(timezone.utc).replace(tzinfo=None)
def get_comfy_models_folders() -> list[tuple[str, list[str]]]:
"""Build a list of (folder_name, base_paths[]) categories that are configured for model locations.
We trust `folder_paths.folder_names_and_paths` and include a category if
*any* of its base paths lies under the Comfy `models_dir`.
"""
targets: list[tuple[str, list[str]]] = []
models_root = os.path.abspath(folder_paths.models_dir)
for name, values in folder_paths.folder_names_and_paths.items():
paths, _exts = values[0], values[1] # NOTE: this prevents nodepacks that hackily edit folder_... from breaking ComfyUI
if any(os.path.abspath(p).startswith(models_root + os.sep) for p in paths):
targets.append((name, paths))
return targets
def compute_relative_filename(file_path: str) -> str | None:
"""
Return the model's path relative to the last well-known folder (the model category),
using forward slashes, eg:
/.../models/checkpoints/flux/123/flux.safetensors -> "flux/123/flux.safetensors"
/.../models/text_encoders/clip_g.safetensors -> "clip_g.safetensors"
For non-model paths, returns None.
NOTE: this is a temporary helper, used only for initializing metadata["filename"] field.
"""
try:
root_category, rel_path = get_relative_to_root_category_path_of_asset(file_path)
except ValueError:
return None
p = Path(rel_path)
parts = [seg for seg in p.parts if seg not in (".", "..", p.anchor)]
if not parts:
return None
if root_category == "models":
# parts[0] is the category ("checkpoints", "vae", etc) drop it
inside = parts[1:] if len(parts) > 1 else [parts[0]]
return "/".join(inside)
return "/".join(parts) # input/output: keep all parts
def get_relative_to_root_category_path_of_asset(file_path: str) -> tuple[Literal["input", "output", "models"], str]:
"""Given an absolute or relative file path, determine which root category the path belongs to:
- 'input' if the file resides under `folder_paths.get_input_directory()`
- 'output' if the file resides under `folder_paths.get_output_directory()`
- 'models' if the file resides under any base path of categories returned by `get_comfy_models_folders()`
Returns:
(root_category, relative_path_inside_that_root)
For 'models', the relative path is prefixed with the category name:
e.g. ('models', 'vae/test/sub/ae.safetensors')
Raises:
ValueError: if the path does not belong to input, output, or configured model bases.
"""
fp_abs = os.path.abspath(file_path)
def _is_within(child: str, parent: str) -> bool:
try:
return os.path.commonpath([child, parent]) == parent
except Exception:
return False
def _rel(child: str, parent: str) -> str:
return os.path.relpath(os.path.join(os.sep, os.path.relpath(child, parent)), os.sep)
# 1) input
input_base = os.path.abspath(folder_paths.get_input_directory())
if _is_within(fp_abs, input_base):
return "input", _rel(fp_abs, input_base)
# 2) output
output_base = os.path.abspath(folder_paths.get_output_directory())
if _is_within(fp_abs, output_base):
return "output", _rel(fp_abs, output_base)
# 3) models (check deepest matching base to avoid ambiguity)
best: tuple[int, str, str] | None = None # (base_len, bucket, rel_inside_bucket)
for bucket, bases in get_comfy_models_folders():
for b in bases:
base_abs = os.path.abspath(b)
if not _is_within(fp_abs, base_abs):
continue
cand = (len(base_abs), bucket, _rel(fp_abs, base_abs))
if best is None or cand[0] > best[0]:
best = cand
if best is not None:
_, bucket, rel_inside = best
combined = os.path.join(bucket, rel_inside)
return "models", os.path.relpath(os.path.join(os.sep, combined), os.sep)
raise ValueError(f"Path is not within input, output, or configured model bases: {file_path}")
def get_name_and_tags_from_asset_path(file_path: str) -> tuple[str, list[str]]:
"""Return a tuple (name, tags) derived from a filesystem path.
Semantics:
- Root category is determined by `get_relative_to_root_category_path_of_asset`.
- The returned `name` is the base filename with extension from the relative path.
- The returned `tags` are:
[root_category] + parent folders of the relative path (in order)
For 'models', this means:
file '/.../ModelsDir/vae/test_tag/ae.safetensors'
-> root_category='models', some_path='vae/test_tag/ae.safetensors'
-> name='ae.safetensors', tags=['models', 'vae', 'test_tag']
Raises:
ValueError: if the path does not belong to input, output, or configured model bases.
"""
root_category, some_path = get_relative_to_root_category_path_of_asset(file_path)
p = Path(some_path)
parent_parts = [part for part in p.parent.parts if part not in (".", "..", p.anchor)]
return p.name, list(dict.fromkeys(normalize_tags([root_category, *parent_parts])))
def normalize_tags(tags: list[str] | None) -> list[str]:
"""
Normalize a list of tags by:
- Stripping whitespace and converting to lowercase.
- Removing duplicates.
"""
return [t.strip().lower() for t in (tags or []) if (t or "").strip()]
def collect_models_files() -> list[str]:
out: list[str] = []
for folder_name, bases in get_comfy_models_folders():
rel_files = folder_paths.get_filename_list(folder_name) or []
for rel_path in rel_files:
abs_path = folder_paths.get_full_path(folder_name, rel_path)
if not abs_path:
continue
abs_path = os.path.abspath(abs_path)
allowed = False
for b in bases:
base_abs = os.path.abspath(b)
with contextlib.suppress(Exception):
if os.path.commonpath([abs_path, base_abs]) == base_abs:
allowed = True
break
if allowed:
out.append(abs_path)
return out

123
app/assets/manager.py
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@@ -1,123 +0,0 @@
from typing import Sequence
from app.database.db import create_session
from app.assets.api import schemas_out
from app.assets.database.queries import (
asset_exists_by_hash,
fetch_asset_info_asset_and_tags,
list_asset_infos_page,
list_tags_with_usage,
)
def _safe_sort_field(requested: str | None) -> str:
if not requested:
return "created_at"
v = requested.lower()
if v in {"name", "created_at", "updated_at", "size", "last_access_time"}:
return v
return "created_at"
def asset_exists(asset_hash: str) -> bool:
with create_session() as session:
return asset_exists_by_hash(session, asset_hash=asset_hash)
def list_assets(
include_tags: Sequence[str] | None = None,
exclude_tags: Sequence[str] | None = None,
name_contains: str | None = None,
metadata_filter: dict | None = None,
limit: int = 20,
offset: int = 0,
sort: str = "created_at",
order: str = "desc",
owner_id: str = "",
) -> schemas_out.AssetsList:
sort = _safe_sort_field(sort)
order = "desc" if (order or "desc").lower() not in {"asc", "desc"} else order.lower()
with create_session() as session:
infos, tag_map, total = list_asset_infos_page(
session,
owner_id=owner_id,
include_tags=include_tags,
exclude_tags=exclude_tags,
name_contains=name_contains,
metadata_filter=metadata_filter,
limit=limit,
offset=offset,
sort=sort,
order=order,
)
summaries: list[schemas_out.AssetSummary] = []
for info in infos:
asset = info.asset
tags = tag_map.get(info.id, [])
summaries.append(
schemas_out.AssetSummary(
id=info.id,
name=info.name,
asset_hash=asset.hash if asset else None,
size=int(asset.size_bytes) if asset else None,
mime_type=asset.mime_type if asset else None,
tags=tags,
preview_url=f"/api/assets/{info.id}/content",
created_at=info.created_at,
updated_at=info.updated_at,
last_access_time=info.last_access_time,
)
)
return schemas_out.AssetsList(
assets=summaries,
total=total,
has_more=(offset + len(summaries)) < total,
)
def get_asset(asset_info_id: str, owner_id: str = "") -> schemas_out.AssetDetail:
with create_session() as session:
res = fetch_asset_info_asset_and_tags(session, asset_info_id=asset_info_id, owner_id=owner_id)
if not res:
raise ValueError(f"AssetInfo {asset_info_id} not found")
info, asset, tag_names = res
preview_id = info.preview_id
return schemas_out.AssetDetail(
id=info.id,
name=info.name,
asset_hash=asset.hash if asset else None,
size=int(asset.size_bytes) if asset and asset.size_bytes is not None else None,
mime_type=asset.mime_type if asset else None,
tags=tag_names,
user_metadata=info.user_metadata or {},
preview_id=preview_id,
created_at=info.created_at,
last_access_time=info.last_access_time,
)
def list_tags(
prefix: str | None = None,
limit: int = 100,
offset: int = 0,
order: str = "count_desc",
include_zero: bool = True,
owner_id: str = "",
) -> schemas_out.TagsList:
limit = max(1, min(1000, limit))
offset = max(0, offset)
with create_session() as session:
rows, total = list_tags_with_usage(
session,
prefix=prefix,
limit=limit,
offset=offset,
include_zero=include_zero,
order=order,
owner_id=owner_id,
)
tags = [schemas_out.TagUsage(name=name, count=count, type=tag_type) for (name, tag_type, count) in rows]
return schemas_out.TagsList(tags=tags, total=total, has_more=(offset + len(tags)) < total)

229
app/assets/scanner.py
View File

@@ -1,229 +0,0 @@
import contextlib
import time
import logging
import os
import sqlalchemy
import folder_paths
from app.database.db import create_session, dependencies_available
from app.assets.helpers import (
collect_models_files, compute_relative_filename, fast_asset_file_check, get_name_and_tags_from_asset_path,
list_tree,prefixes_for_root, escape_like_prefix,
RootType
)
from app.assets.database.tags import add_missing_tag_for_asset_id, ensure_tags_exist, remove_missing_tag_for_asset_id
from app.assets.database.bulk_ops import seed_from_paths_batch
from app.assets.database.models import Asset, AssetCacheState, AssetInfo
def seed_assets(roots: tuple[RootType, ...], enable_logging: bool = False) -> None:
"""
Scan the given roots and seed the assets into the database.
"""
if not dependencies_available():
if enable_logging:
logging.warning("Database dependencies not available, skipping assets scan")
return
t_start = time.perf_counter()
created = 0
skipped_existing = 0
paths: list[str] = []
try:
existing_paths: set[str] = set()
for r in roots:
try:
survivors: set[str] = _fast_db_consistency_pass(r, collect_existing_paths=True, update_missing_tags=True)
if survivors:
existing_paths.update(survivors)
except Exception as e:
logging.exception("fast DB scan failed for %s: %s", r, e)
if "models" in roots:
paths.extend(collect_models_files())
if "input" in roots:
paths.extend(list_tree(folder_paths.get_input_directory()))
if "output" in roots:
paths.extend(list_tree(folder_paths.get_output_directory()))
specs: list[dict] = []
tag_pool: set[str] = set()
for p in paths:
abs_p = os.path.abspath(p)
if abs_p in existing_paths:
skipped_existing += 1
continue
try:
stat_p = os.stat(abs_p, follow_symlinks=False)
except OSError:
continue
# skip empty files
if not stat_p.st_size:
continue
name, tags = get_name_and_tags_from_asset_path(abs_p)
specs.append(
{
"abs_path": abs_p,
"size_bytes": stat_p.st_size,
"mtime_ns": getattr(stat_p, "st_mtime_ns", int(stat_p.st_mtime * 1_000_000_000)),
"info_name": name,
"tags": tags,
"fname": compute_relative_filename(abs_p),
}
)
for t in tags:
tag_pool.add(t)
# if no file specs, nothing to do
if not specs:
return
with create_session() as sess:
if tag_pool:
ensure_tags_exist(sess, tag_pool, tag_type="user")
result = seed_from_paths_batch(sess, specs=specs, owner_id="")
created += result["inserted_infos"]
sess.commit()
finally:
if enable_logging:
logging.info(
"Assets scan(roots=%s) completed in %.3fs (created=%d, skipped_existing=%d, total_seen=%d)",
roots,
time.perf_counter() - t_start,
created,
skipped_existing,
len(paths),
)
def _fast_db_consistency_pass(
root: RootType,
*,
collect_existing_paths: bool = False,
update_missing_tags: bool = False,
) -> set[str] | None:
"""Fast DB+FS pass for a root:
- Toggle needs_verify per state using fast check
- For hashed assets with at least one fast-ok state in this root: delete stale missing states
- For seed assets with all states missing: delete Asset and its AssetInfos
- Optionally add/remove 'missing' tags based on fast-ok in this root
- Optionally return surviving absolute paths
"""
prefixes = prefixes_for_root(root)
if not prefixes:
return set() if collect_existing_paths else None
conds = []
for p in prefixes:
base = os.path.abspath(p)
if not base.endswith(os.sep):
base += os.sep
escaped, esc = escape_like_prefix(base)
conds.append(AssetCacheState.file_path.like(escaped + "%", escape=esc))
with create_session() as sess:
rows = (
sess.execute(
sqlalchemy.select(
AssetCacheState.id,
AssetCacheState.file_path,
AssetCacheState.mtime_ns,
AssetCacheState.needs_verify,
AssetCacheState.asset_id,
Asset.hash,
Asset.size_bytes,
)
.join(Asset, Asset.id == AssetCacheState.asset_id)
.where(sqlalchemy.or_(*conds))
.order_by(AssetCacheState.asset_id.asc(), AssetCacheState.id.asc())
)
).all()
by_asset: dict[str, dict] = {}
for sid, fp, mtime_db, needs_verify, aid, a_hash, a_size in rows:
acc = by_asset.get(aid)
if acc is None:
acc = {"hash": a_hash, "size_db": int(a_size or 0), "states": []}
by_asset[aid] = acc
fast_ok = False
try:
exists = True
fast_ok = fast_asset_file_check(
mtime_db=mtime_db,
size_db=acc["size_db"],
stat_result=os.stat(fp, follow_symlinks=True),
)
except FileNotFoundError:
exists = False
except OSError:
exists = False
acc["states"].append({
"sid": sid,
"fp": fp,
"exists": exists,
"fast_ok": fast_ok,
"needs_verify": bool(needs_verify),
})
to_set_verify: list[int] = []
to_clear_verify: list[int] = []
stale_state_ids: list[int] = []
survivors: set[str] = set()
for aid, acc in by_asset.items():
a_hash = acc["hash"]
states = acc["states"]
any_fast_ok = any(s["fast_ok"] for s in states)
all_missing = all(not s["exists"] for s in states)
for s in states:
if not s["exists"]:
continue
if s["fast_ok"] and s["needs_verify"]:
to_clear_verify.append(s["sid"])
if not s["fast_ok"] and not s["needs_verify"]:
to_set_verify.append(s["sid"])
if a_hash is None:
if states and all_missing: # remove seed Asset completely, if no valid AssetCache exists
sess.execute(sqlalchemy.delete(AssetInfo).where(AssetInfo.asset_id == aid))
asset = sess.get(Asset, aid)
if asset:
sess.delete(asset)
else:
for s in states:
if s["exists"]:
survivors.add(os.path.abspath(s["fp"]))
continue
if any_fast_ok: # if Asset has at least one valid AssetCache record, remove any invalid AssetCache records
for s in states:
if not s["exists"]:
stale_state_ids.append(s["sid"])
if update_missing_tags:
with contextlib.suppress(Exception):
remove_missing_tag_for_asset_id(sess, asset_id=aid)
elif update_missing_tags:
with contextlib.suppress(Exception):
add_missing_tag_for_asset_id(sess, asset_id=aid, origin="automatic")
for s in states:
if s["exists"]:
survivors.add(os.path.abspath(s["fp"]))
if stale_state_ids:
sess.execute(sqlalchemy.delete(AssetCacheState).where(AssetCacheState.id.in_(stale_state_ids)))
if to_set_verify:
sess.execute(
sqlalchemy.update(AssetCacheState)
.where(AssetCacheState.id.in_(to_set_verify))
.values(needs_verify=True)
)
if to_clear_verify:
sess.execute(
sqlalchemy.update(AssetCacheState)
.where(AssetCacheState.id.in_(to_clear_verify))
.values(needs_verify=False)
)
sess.commit()
return survivors if collect_existing_paths else None

25
app/database/models.py
View File

@@ -1,21 +1,14 @@
from typing import Any
from datetime import datetime
from sqlalchemy.orm import DeclarativeBase
from sqlalchemy.orm import declarative_base
class Base(DeclarativeBase):
pass
Base = declarative_base()
def to_dict(obj: Any, include_none: bool = False) -> dict[str, Any]:
def to_dict(obj):
fields = obj.__table__.columns.keys()
out: dict[str, Any] = {}
for field in fields:
val = getattr(obj, field)
if val is None and not include_none:
continue
if isinstance(val, datetime):
out[field] = val.isoformat()
else:
out[field] = val
return out
return {
field: (val.to_dict() if hasattr(val, "to_dict") else val)
for field in fields
if (val := getattr(obj, field))
}
# TODO: Define models here

100
app/frontend_management.py
View File

@@ -10,8 +10,7 @@ import importlib
from dataclasses import dataclass
from functools import cached_property
from pathlib import Path
from typing import Dict, TypedDict, Optional
from aiohttp import web
from typing import TypedDict, Optional
from importlib.metadata import version
import requests
@@ -43,7 +42,6 @@ def get_installed_frontend_version():
frontend_version_str = version("comfyui-frontend-package")
return frontend_version_str
def get_required_frontend_version():
"""Get the required frontend version from requirements.txt."""
try:
@@ -65,7 +63,6 @@ def get_required_frontend_version():
logging.error(f"Error reading requirements.txt: {e}")
return None
def check_frontend_version():
"""Check if the frontend version is up to date."""
@@ -206,37 +203,6 @@ class FrontendManager:
"""Get the required frontend package version."""
return get_required_frontend_version()
@classmethod
def get_installed_templates_version(cls) -> str:
"""Get the currently installed workflow templates package version."""
try:
templates_version_str = version("comfyui-workflow-templates")
return templates_version_str
except Exception:
return None
@classmethod
def get_required_templates_version(cls) -> str:
"""Get the required workflow templates version from requirements.txt."""
try:
with open(requirements_path, "r", encoding="utf-8") as f:
for line in f:
line = line.strip()
if line.startswith("comfyui-workflow-templates=="):
version_str = line.split("==")[-1]
if not is_valid_version(version_str):
logging.error(f"Invalid templates version format in requirements.txt: {version_str}")
return None
return version_str
logging.error("comfyui-workflow-templates not found in requirements.txt")
return None
except FileNotFoundError:
logging.error("requirements.txt not found. Cannot determine required templates version.")
return None
except Exception as e:
logging.error(f"Error reading requirements.txt: {e}")
return None
@classmethod
def default_frontend_path(cls) -> str:
try:
@@ -258,54 +224,7 @@ comfyui-frontend-package is not installed.
sys.exit(-1)
@classmethod
def template_asset_map(cls) -> Optional[Dict[str, str]]:
"""Return a mapping of template asset names to their absolute paths."""
try:
from comfyui_workflow_templates import (
get_asset_path,
iter_templates,
)
except ImportError:
logging.error(
f"""
********** ERROR ***********
comfyui-workflow-templates is not installed.
{frontend_install_warning_message()}
********** ERROR ***********
""".strip()
)
return None
try:
template_entries = list(iter_templates())
except Exception as exc:
logging.error(f"Failed to enumerate workflow templates: {exc}")
return None
asset_map: Dict[str, str] = {}
try:
for entry in template_entries:
for asset in entry.assets:
asset_map[asset.filename] = get_asset_path(
entry.template_id, asset.filename
)
except Exception as exc:
logging.error(f"Failed to resolve template asset paths: {exc}")
return None
if not asset_map:
logging.error("No workflow template assets found. Did the packages install correctly?")
return None
return asset_map
@classmethod
def legacy_templates_path(cls) -> Optional[str]:
"""Return the legacy templates directory shipped inside the meta package."""
def templates_path(cls) -> str:
try:
import comfyui_workflow_templates
@@ -324,7 +243,6 @@ comfyui-workflow-templates is not installed.
********** ERROR ***********
""".strip()
)
return None
@classmethod
def embedded_docs_path(cls) -> str:
@@ -441,17 +359,3 @@ comfyui-workflow-templates is not installed.
logging.info("Falling back to the default frontend.")
check_frontend_version()
return cls.default_frontend_path()
@classmethod
def template_asset_handler(cls):
assets = cls.template_asset_map()
if not assets:
return None
async def serve_template(request: web.Request) -> web.StreamResponse:
rel_path = request.match_info.get("path", "")
target = assets.get(rel_path)
if target is None:
raise web.HTTPNotFound()
return web.FileResponse(target)
return serve_template

4
app/model_manager.py
View File

@@ -44,7 +44,7 @@ class ModelFileManager:
@routes.get("/experiment/models/{folder}")
async def get_all_models(request):
folder = request.match_info.get("folder", None)
if folder not in folder_paths.folder_names_and_paths:
if not folder in folder_paths.folder_names_and_paths:
return web.Response(status=404)
files = self.get_model_file_list(folder)
return web.json_response(files)
@@ -55,7 +55,7 @@ class ModelFileManager:
path_index = int(request.match_info.get("path_index", None))
filename = request.match_info.get("filename", None)
if folder_name not in folder_paths.folder_names_and_paths:
if not folder_name in folder_paths.folder_names_and_paths:
return web.Response(status=404)
folders = folder_paths.folder_names_and_paths[folder_name]

132
app/subgraph_manager.py
View File

@@ -1,132 +0,0 @@
from __future__ import annotations
from typing import TypedDict
import os
import folder_paths
import glob
from aiohttp import web
import hashlib
class Source:
custom_node = "custom_node"
templates = "templates"
class SubgraphEntry(TypedDict):
source: str
"""
Source of subgraph - custom_nodes vs templates.
"""
path: str
"""
Relative path of the subgraph file.
For custom nodes, will be the relative directory like <custom_node_dir>/subgraphs/<name>.json
"""
name: str
"""
Name of subgraph file.
"""
info: CustomNodeSubgraphEntryInfo
"""
Additional info about subgraph; in the case of custom_nodes, will contain nodepack name
"""
data: str
class CustomNodeSubgraphEntryInfo(TypedDict):
node_pack: str
"""Node pack name."""
class SubgraphManager:
def __init__(self):
self.cached_custom_node_subgraphs: dict[SubgraphEntry] | None = None
self.cached_blueprint_subgraphs: dict[SubgraphEntry] | None = None
def _create_entry(self, file: str, source: str, node_pack: str) -> tuple[str, SubgraphEntry]:
"""Create a subgraph entry from a file path. Expects normalized path (forward slashes)."""
entry_id = hashlib.sha256(f"{source}{file}".encode()).hexdigest()
entry: SubgraphEntry = {
"source": source,
"name": os.path.splitext(os.path.basename(file))[0],
"path": file,
"info": {"node_pack": node_pack},
}
return entry_id, entry
async def load_entry_data(self, entry: SubgraphEntry):
with open(entry['path'], 'r') as f:
entry['data'] = f.read()
return entry
async def sanitize_entry(self, entry: SubgraphEntry | None, remove_data=False) -> SubgraphEntry | None:
if entry is None:
return None
entry = entry.copy()
entry.pop('path', None)
if remove_data:
entry.pop('data', None)
return entry
async def sanitize_entries(self, entries: dict[str, SubgraphEntry], remove_data=False) -> dict[str, SubgraphEntry]:
entries = entries.copy()
for key in list(entries.keys()):
entries[key] = await self.sanitize_entry(entries[key], remove_data)
return entries
async def get_custom_node_subgraphs(self, loadedModules, force_reload=False):
"""Load subgraphs from custom nodes."""
if not force_reload and self.cached_custom_node_subgraphs is not None:
return self.cached_custom_node_subgraphs
subgraphs_dict: dict[SubgraphEntry] = {}
for folder in folder_paths.get_folder_paths("custom_nodes"):
pattern = os.path.join(folder, "*/subgraphs/*.json")
for file in glob.glob(pattern):
file = file.replace('\\', '/')
node_pack = "custom_nodes." + file.split('/')[-3]
entry_id, entry = self._create_entry(file, Source.custom_node, node_pack)
subgraphs_dict[entry_id] = entry
self.cached_custom_node_subgraphs = subgraphs_dict
return subgraphs_dict
async def get_blueprint_subgraphs(self, force_reload=False):
"""Load subgraphs from the blueprints directory."""
if not force_reload and self.cached_blueprint_subgraphs is not None:
return self.cached_blueprint_subgraphs
subgraphs_dict: dict[SubgraphEntry] = {}
blueprints_dir = os.path.join(os.path.dirname(os.path.dirname(__file__)), 'blueprints')
if os.path.exists(blueprints_dir):
for file in glob.glob(os.path.join(blueprints_dir, "*.json")):
file = file.replace('\\', '/')
entry_id, entry = self._create_entry(file, Source.templates, "comfyui")
subgraphs_dict[entry_id] = entry
self.cached_blueprint_subgraphs = subgraphs_dict
return subgraphs_dict
async def get_all_subgraphs(self, loadedModules, force_reload=False):
"""Get all subgraphs from all sources (custom nodes and blueprints)."""
custom_node_subgraphs = await self.get_custom_node_subgraphs(loadedModules, force_reload)
blueprint_subgraphs = await self.get_blueprint_subgraphs(force_reload)
return {**custom_node_subgraphs, **blueprint_subgraphs}
async def get_subgraph(self, id: str, loadedModules):
"""Get a specific subgraph by ID from any source."""
entry = (await self.get_all_subgraphs(loadedModules)).get(id)
if entry is not None and entry.get('data') is None:
await self.load_entry_data(entry)
return entry
def add_routes(self, routes, loadedModules):
@routes.get("/global_subgraphs")
async def get_global_subgraphs(request):
subgraphs_dict = await self.get_all_subgraphs(loadedModules)
return web.json_response(await self.sanitize_entries(subgraphs_dict, remove_data=True))
@routes.get("/global_subgraphs/{id}")
async def get_global_subgraph(request):
id = request.match_info.get("id", None)
subgraph = await self.get_subgraph(id, loadedModules)
return web.json_response(await self.sanitize_entry(subgraph))

23
app/user_manager.py
View File

@@ -59,9 +59,6 @@ class UserManager():
user = "default"
if args.multi_user and "comfy-user" in request.headers:
user = request.headers["comfy-user"]
# Block System Users (use same error message to prevent probing)
if user.startswith(folder_paths.SYSTEM_USER_PREFIX):
raise KeyError("Unknown user: " + user)
if user not in self.users:
raise KeyError("Unknown user: " + user)
@@ -69,16 +66,15 @@ class UserManager():
return user
def get_request_user_filepath(self, request, file, type="userdata", create_dir=True):
user_directory = folder_paths.get_user_directory()
if type == "userdata":
root_dir = folder_paths.get_user_directory()
root_dir = user_directory
else:
raise KeyError("Unknown filepath type:" + type)
user = self.get_request_user_id(request)
user_root = folder_paths.get_public_user_directory(user)
if user_root is None:
return None
path = user_root
path = user_root = os.path.abspath(os.path.join(root_dir, user))
# prevent leaving /{type}
if os.path.commonpath((root_dir, user_root)) != root_dir:
@@ -105,11 +101,7 @@ class UserManager():
name = name.strip()
if not name:
raise ValueError("username not provided")
if name.startswith(folder_paths.SYSTEM_USER_PREFIX):
raise ValueError("System User prefix not allowed")
user_id = re.sub("[^a-zA-Z0-9-_]+", '-', name)
if user_id.startswith(folder_paths.SYSTEM_USER_PREFIX):
raise ValueError("System User prefix not allowed")
user_id = user_id + "_" + str(uuid.uuid4())
self.users[user_id] = name
@@ -140,10 +132,7 @@ class UserManager():
if username in self.users.values():
return web.json_response({"error": "Duplicate username."}, status=400)
try:
user_id = self.add_user(username)
except ValueError as e:
return web.json_response({"error": str(e)}, status=400)
user_id = self.add_user(username)
return web.json_response(user_id)
@routes.get("/userdata")
@@ -435,7 +424,7 @@ class UserManager():
return source
dest = get_user_data_path(request, check_exists=False, param="dest")
if not isinstance(dest, str):
if not isinstance(source, str):
return dest
overwrite = request.query.get("overwrite", 'true') != "false"

44
blueprints/.glsl/Brightness_and_Contrast_1.frag
View File

@@ -1,44 +0,0 @@
#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform float u_float0; // Brightness slider -100..100
uniform float u_float1; // Contrast slider -100..100
in vec2 v_texCoord;
out vec4 fragColor;
const float MID_GRAY = 0.18; // 18% reflectance
// sRGB gamma 2.2 approximation
vec3 srgbToLinear(vec3 c) {
return pow(max(c, 0.0), vec3(2.2));
}
vec3 linearToSrgb(vec3 c) {
return pow(max(c, 0.0), vec3(1.0/2.2));
}
float mapBrightness(float b) {
return clamp(b / 100.0, -1.0, 1.0);
}
float mapContrast(float c) {
return clamp(c / 100.0 + 1.0, 0.0, 2.0);
}
void main() {
vec4 orig = texture(u_image0, v_texCoord);
float brightness = mapBrightness(u_float0);
float contrast = mapContrast(u_float1);
vec3 lin = srgbToLinear(orig.rgb);
lin = (lin - MID_GRAY) * contrast + brightness + MID_GRAY;
// Convert back to sRGB
vec3 result = linearToSrgb(clamp(lin, 0.0, 1.0));
fragColor = vec4(result, orig.a);
}

72
blueprints/.glsl/Chromatic_Aberration_16.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform int u_int0; // Mode
uniform float u_float0; // Amount (0 to 100)
in vec2 v_texCoord;
out vec4 fragColor;
const int MODE_LINEAR = 0;
const int MODE_RADIAL = 1;
const int MODE_BARREL = 2;
const int MODE_SWIRL = 3;
const int MODE_DIAGONAL = 4;
const float AMOUNT_SCALE = 0.0005;
const float RADIAL_MULT = 4.0;
const float BARREL_MULT = 8.0;
const float INV_SQRT2 = 0.70710678118;
void main() {
vec2 uv = v_texCoord;
vec4 original = texture(u_image0, uv);
float amount = u_float0 * AMOUNT_SCALE;
if (amount < 0.000001) {
fragColor = original;
return;
}
// Aspect-corrected coordinates for circular effects
float aspect = u_resolution.x / u_resolution.y;
vec2 centered = uv - 0.5;
vec2 corrected = vec2(centered.x * aspect, centered.y);
float r = length(corrected);
vec2 dir = r > 0.0001 ? corrected / r : vec2(0.0);
vec2 offset = vec2(0.0);
if (u_int0 == MODE_LINEAR) {
// Horizontal shift (no aspect correction needed)
offset = vec2(amount, 0.0);
}
else if (u_int0 == MODE_RADIAL) {
// Outward from center, stronger at edges
offset = dir * r * amount * RADIAL_MULT;
offset.x /= aspect; // Convert back to UV space
}
else if (u_int0 == MODE_BARREL) {
// Lens distortion simulation (r² falloff)
offset = dir * r * r * amount * BARREL_MULT;
offset.x /= aspect; // Convert back to UV space
}
else if (u_int0 == MODE_SWIRL) {
// Perpendicular to radial (rotational aberration)
vec2 perp = vec2(-dir.y, dir.x);
offset = perp * r * amount * RADIAL_MULT;
offset.x /= aspect; // Convert back to UV space
}
else if (u_int0 == MODE_DIAGONAL) {
// 45° offset (no aspect correction needed)
offset = vec2(amount, amount) * INV_SQRT2;
}
float red = texture(u_image0, uv + offset).r;
float green = original.g;
float blue = texture(u_image0, uv - offset).b;
fragColor = vec4(red, green, blue, original.a);
}

78
blueprints/.glsl/Color_Adjustment_15.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform float u_float0; // temperature (-100 to 100)
uniform float u_float1; // tint (-100 to 100)
uniform float u_float2; // vibrance (-100 to 100)
uniform float u_float3; // saturation (-100 to 100)
in vec2 v_texCoord;
out vec4 fragColor;
const float INPUT_SCALE = 0.01;
const float TEMP_TINT_PRIMARY = 0.3;
const float TEMP_TINT_SECONDARY = 0.15;
const float VIBRANCE_BOOST = 2.0;
const float SATURATION_BOOST = 2.0;
const float SKIN_PROTECTION = 0.5;
const float EPSILON = 0.001;
const vec3 LUMA_WEIGHTS = vec3(0.299, 0.587, 0.114);
void main() {
vec4 tex = texture(u_image0, v_texCoord);
vec3 color = tex.rgb;
// Scale inputs: -100/100 → -1/1
float temperature = u_float0 * INPUT_SCALE;
float tint = u_float1 * INPUT_SCALE;
float vibrance = u_float2 * INPUT_SCALE;
float saturation = u_float3 * INPUT_SCALE;
// Temperature (warm/cool): positive = warm, negative = cool
color.r += temperature * TEMP_TINT_PRIMARY;
color.b -= temperature * TEMP_TINT_PRIMARY;
// Tint (green/magenta): positive = green, negative = magenta
color.g += tint * TEMP_TINT_PRIMARY;
color.r -= tint * TEMP_TINT_SECONDARY;
color.b -= tint * TEMP_TINT_SECONDARY;
// Single clamp after temperature/tint
color = clamp(color, 0.0, 1.0);
// Vibrance with skin protection
if (vibrance != 0.0) {
float maxC = max(color.r, max(color.g, color.b));
float minC = min(color.r, min(color.g, color.b));
float sat = maxC - minC;
float gray = dot(color, LUMA_WEIGHTS);
if (vibrance < 0.0) {
// Desaturate: -100 → gray
color = mix(vec3(gray), color, 1.0 + vibrance);
} else {
// Boost less saturated colors more
float vibranceAmt = vibrance * (1.0 - sat);
// Branchless skin tone protection
float isWarmTone = step(color.b, color.g) * step(color.g, color.r);
float warmth = (color.r - color.b) / max(maxC, EPSILON);
float skinTone = isWarmTone * warmth * sat * (1.0 - sat);
vibranceAmt *= (1.0 - skinTone * SKIN_PROTECTION);
color = mix(vec3(gray), color, 1.0 + vibranceAmt * VIBRANCE_BOOST);
}
}
// Saturation
if (saturation != 0.0) {
float gray = dot(color, LUMA_WEIGHTS);
float satMix = saturation < 0.0
? 1.0 + saturation // -100 → gray
: 1.0 + saturation * SATURATION_BOOST; // +100 → 3x boost
color = mix(vec3(gray), color, satMix);
}
fragColor = vec4(clamp(color, 0.0, 1.0), tex.a);
}

94
blueprints/.glsl/Edge-Preserving_Blur_128.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform float u_float0; // Blur radius (020, default ~5)
uniform float u_float1; // Edge threshold (0100, default ~30)
uniform int u_int0; // Step size (0/1 = every pixel, 2+ = skip pixels)
in vec2 v_texCoord;
out vec4 fragColor;
const int MAX_RADIUS = 20;
const float EPSILON = 0.0001;
// Perceptual luminance
float getLuminance(vec3 rgb) {
return dot(rgb, vec3(0.299, 0.587, 0.114));
}
vec4 bilateralFilter(vec2 uv, vec2 texelSize, int radius,
float sigmaSpatial, float sigmaColor)
{
vec4 center = texture(u_image0, uv);
vec3 centerRGB = center.rgb;
float invSpatial2 = -0.5 / (sigmaSpatial * sigmaSpatial);
float invColor2 = -0.5 / (sigmaColor * sigmaColor + EPSILON);
vec3 sumRGB = vec3(0.0);
float sumWeight = 0.0;
int step = max(u_int0, 1);
float radius2 = float(radius * radius);
for (int dy = -MAX_RADIUS; dy <= MAX_RADIUS; dy++) {
if (dy < -radius || dy > radius) continue;
if (abs(dy) % step != 0) continue;
for (int dx = -MAX_RADIUS; dx <= MAX_RADIUS; dx++) {
if (dx < -radius || dx > radius) continue;
if (abs(dx) % step != 0) continue;
vec2 offset = vec2(float(dx), float(dy));
float dist2 = dot(offset, offset);
if (dist2 > radius2) continue;
vec3 sampleRGB = texture(u_image0, uv + offset * texelSize).rgb;
// Spatial Gaussian
float spatialWeight = exp(dist2 * invSpatial2);
// Perceptual color distance (weighted RGB)
vec3 diff = sampleRGB - centerRGB;
float colorDist = dot(diff * diff, vec3(0.299, 0.587, 0.114));
float colorWeight = exp(colorDist * invColor2);
float w = spatialWeight * colorWeight;
sumRGB += sampleRGB * w;
sumWeight += w;
}
}
vec3 resultRGB = sumRGB / max(sumWeight, EPSILON);
return vec4(resultRGB, center.a); // preserve center alpha
}
void main() {
vec2 texelSize = 1.0 / vec2(textureSize(u_image0, 0));
float radiusF = clamp(u_float0, 0.0, float(MAX_RADIUS));
int radius = int(radiusF + 0.5);
if (radius == 0) {
fragColor = texture(u_image0, v_texCoord);
return;
}
// Edge threshold → color sigma
// Squared curve for better low-end control
float t = clamp(u_float1, 0.0, 100.0) / 100.0;
t *= t;
float sigmaColor = mix(0.01, 0.5, t);
// Spatial sigma tied to radius
float sigmaSpatial = max(radiusF * 0.75, 0.5);
fragColor = bilateralFilter(
v_texCoord,
texelSize,
radius,
sigmaSpatial,
sigmaColor
);
}

124
blueprints/.glsl/Film_Grain_15.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform float u_float0; // grain amount [0.0 1.0] typical: 0.20.8
uniform float u_float1; // grain size [0.3 3.0] lower = finer grain
uniform float u_float2; // color amount [0.0 1.0] 0 = monochrome, 1 = RGB grain
uniform float u_float3; // luminance bias [0.0 1.0] 0 = uniform, 1 = shadows only
uniform int u_int0; // noise mode [0 or 1] 0 = smooth, 1 = grainy
in vec2 v_texCoord;
layout(location = 0) out vec4 fragColor0;
// High-quality integer hash (pcg-like)
uint pcg(uint v) {
uint state = v * 747796405u + 2891336453u;
uint word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;
return (word >> 22u) ^ word;
}
// 2D -> 1D hash input
uint hash2d(uvec2 p) {
return pcg(p.x + pcg(p.y));
}
// Hash to float [0, 1]
float hashf(uvec2 p) {
return float(hash2d(p)) / float(0xffffffffu);
}
// Hash to float with offset (for RGB channels)
float hashf(uvec2 p, uint offset) {
return float(pcg(hash2d(p) + offset)) / float(0xffffffffu);
}
// Convert uniform [0,1] to roughly Gaussian distribution
// Using simple approximation: average of multiple samples
float toGaussian(uvec2 p) {
float sum = hashf(p, 0u) + hashf(p, 1u) + hashf(p, 2u) + hashf(p, 3u);
return (sum - 2.0) * 0.7; // Centered, scaled
}
float toGaussian(uvec2 p, uint offset) {
float sum = hashf(p, offset) + hashf(p, offset + 1u)
+ hashf(p, offset + 2u) + hashf(p, offset + 3u);
return (sum - 2.0) * 0.7;
}
// Smooth noise with better interpolation
float smoothNoise(vec2 p) {
vec2 i = floor(p);
vec2 f = fract(p);
// Quintic interpolation (less banding than cubic)
f = f * f * f * (f * (f * 6.0 - 15.0) + 10.0);
uvec2 ui = uvec2(i);
float a = toGaussian(ui);
float b = toGaussian(ui + uvec2(1u, 0u));
float c = toGaussian(ui + uvec2(0u, 1u));
float d = toGaussian(ui + uvec2(1u, 1u));
return mix(mix(a, b, f.x), mix(c, d, f.x), f.y);
}
float smoothNoise(vec2 p, uint offset) {
vec2 i = floor(p);
vec2 f = fract(p);
f = f * f * f * (f * (f * 6.0 - 15.0) + 10.0);
uvec2 ui = uvec2(i);
float a = toGaussian(ui, offset);
float b = toGaussian(ui + uvec2(1u, 0u), offset);
float c = toGaussian(ui + uvec2(0u, 1u), offset);
float d = toGaussian(ui + uvec2(1u, 1u), offset);
return mix(mix(a, b, f.x), mix(c, d, f.x), f.y);
}
void main() {
vec4 color = texture(u_image0, v_texCoord);
// Luminance (Rec.709)
float luma = dot(color.rgb, vec3(0.2126, 0.7152, 0.0722));
// Grain UV (resolution-independent)
vec2 grainUV = v_texCoord * u_resolution / max(u_float1, 0.01);
uvec2 grainPixel = uvec2(grainUV);
float g;
vec3 grainRGB;
if (u_int0 == 1) {
// Grainy mode: pure hash noise (no interpolation = no banding)
g = toGaussian(grainPixel);
grainRGB = vec3(
toGaussian(grainPixel, 100u),
toGaussian(grainPixel, 200u),
toGaussian(grainPixel, 300u)
);
} else {
// Smooth mode: interpolated with quintic curve
g = smoothNoise(grainUV);
grainRGB = vec3(
smoothNoise(grainUV, 100u),
smoothNoise(grainUV, 200u),
smoothNoise(grainUV, 300u)
);
}
// Luminance weighting (less grain in highlights)
float lumWeight = mix(1.0, 1.0 - luma, clamp(u_float3, 0.0, 1.0));
// Strength
float strength = u_float0 * 0.15;
// Color vs monochrome grain
vec3 grainColor = mix(vec3(g), grainRGB, clamp(u_float2, 0.0, 1.0));
color.rgb += grainColor * strength * lumWeight;
fragColor0 = vec4(clamp(color.rgb, 0.0, 1.0), color.a);
}

133
blueprints/.glsl/Glow_30.frag
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#version 300 es
precision mediump float;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform int u_int0; // Blend mode
uniform int u_int1; // Color tint
uniform float u_float0; // Intensity
uniform float u_float1; // Radius
uniform float u_float2; // Threshold
in vec2 v_texCoord;
out vec4 fragColor;
const int BLEND_ADD = 0;
const int BLEND_SCREEN = 1;
const int BLEND_SOFT = 2;
const int BLEND_OVERLAY = 3;
const int BLEND_LIGHTEN = 4;
const float GOLDEN_ANGLE = 2.39996323;
const int MAX_SAMPLES = 48;
const vec3 LUMA = vec3(0.299, 0.587, 0.114);
float hash(vec2 p) {
p = fract(p * vec2(123.34, 456.21));
p += dot(p, p + 45.32);
return fract(p.x * p.y);
}
vec3 hexToRgb(int h) {
return vec3(
float((h >> 16) & 255),
float((h >> 8) & 255),
float(h & 255)
) * (1.0 / 255.0);
}
vec3 blend(vec3 base, vec3 glow, int mode) {
if (mode == BLEND_SCREEN) {
return 1.0 - (1.0 - base) * (1.0 - glow);
}
if (mode == BLEND_SOFT) {
return mix(
base - (1.0 - 2.0 * glow) * base * (1.0 - base),
base + (2.0 * glow - 1.0) * (sqrt(base) - base),
step(0.5, glow)
);
}
if (mode == BLEND_OVERLAY) {
return mix(
2.0 * base * glow,
1.0 - 2.0 * (1.0 - base) * (1.0 - glow),
step(0.5, base)
);
}
if (mode == BLEND_LIGHTEN) {
return max(base, glow);
}
return base + glow;
}
void main() {
vec4 original = texture(u_image0, v_texCoord);
float intensity = u_float0 * 0.05;
float radius = u_float1 * u_float1 * 0.012;
if (intensity < 0.001 || radius < 0.1) {
fragColor = original;
return;
}
float threshold = 1.0 - u_float2 * 0.01;
float t0 = threshold - 0.15;
float t1 = threshold + 0.15;
vec2 texelSize = 1.0 / u_resolution;
float radius2 = radius * radius;
float sampleScale = clamp(radius * 0.75, 0.35, 1.0);
int samples = int(float(MAX_SAMPLES) * sampleScale);
float noise = hash(gl_FragCoord.xy);
float angleOffset = noise * GOLDEN_ANGLE;
float radiusJitter = 0.85 + noise * 0.3;
float ca = cos(GOLDEN_ANGLE);
float sa = sin(GOLDEN_ANGLE);
vec2 dir = vec2(cos(angleOffset), sin(angleOffset));
vec3 glow = vec3(0.0);
float totalWeight = 0.0;
// Center tap
float centerMask = smoothstep(t0, t1, dot(original.rgb, LUMA));
glow += original.rgb * centerMask * 2.0;
totalWeight += 2.0;
for (int i = 1; i < MAX_SAMPLES; i++) {
if (i >= samples) break;
float fi = float(i);
float dist = sqrt(fi / float(samples)) * radius * radiusJitter;
vec2 offset = dir * dist * texelSize;
vec3 c = texture(u_image0, v_texCoord + offset).rgb;
float mask = smoothstep(t0, t1, dot(c, LUMA));
float w = 1.0 - (dist * dist) / (radius2 * 1.5);
w = max(w, 0.0);
w *= w;
glow += c * mask * w;
totalWeight += w;
dir = vec2(
dir.x * ca - dir.y * sa,
dir.x * sa + dir.y * ca
);
}
glow *= intensity / max(totalWeight, 0.001);
if (u_int1 > 0) {
glow *= hexToRgb(u_int1);
}
vec3 result = blend(original.rgb, glow, u_int0);
result += (noise - 0.5) * (1.0 / 255.0);
fragColor = vec4(clamp(result, 0.0, 1.0), original.a);
}

222
blueprints/.glsl/Hue_and_Saturation_1.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform int u_int0; // Mode: 0=Master, 1=Reds, 2=Yellows, 3=Greens, 4=Cyans, 5=Blues, 6=Magentas, 7=Colorize
uniform int u_int1; // Color Space: 0=HSL, 1=HSB/HSV
uniform float u_float0; // Hue (-180 to 180)
uniform float u_float1; // Saturation (-100 to 100)
uniform float u_float2; // Lightness/Brightness (-100 to 100)
uniform float u_float3; // Overlap (0 to 100) - feathering between adjacent color ranges
in vec2 v_texCoord;
out vec4 fragColor;
// Color range modes
const int MODE_MASTER = 0;
const int MODE_RED = 1;
const int MODE_YELLOW = 2;
const int MODE_GREEN = 3;
const int MODE_CYAN = 4;
const int MODE_BLUE = 5;
const int MODE_MAGENTA = 6;
const int MODE_COLORIZE = 7;
// Color space modes
const int COLORSPACE_HSL = 0;
const int COLORSPACE_HSB = 1;
const float EPSILON = 0.0001;
//=============================================================================
// RGB <-> HSL Conversions
//=============================================================================
vec3 rgb2hsl(vec3 c) {
float maxC = max(max(c.r, c.g), c.b);
float minC = min(min(c.r, c.g), c.b);
float delta = maxC - minC;
float h = 0.0;
float s = 0.0;
float l = (maxC + minC) * 0.5;
if (delta > EPSILON) {
s = l < 0.5
? delta / (maxC + minC)
: delta / (2.0 - maxC - minC);
if (maxC == c.r) {
h = (c.g - c.b) / delta + (c.g < c.b ? 6.0 : 0.0);
} else if (maxC == c.g) {
h = (c.b - c.r) / delta + 2.0;
} else {
h = (c.r - c.g) / delta + 4.0;
}
h /= 6.0;
}
return vec3(h, s, l);
}
float hue2rgb(float p, float q, float t) {
t = fract(t);
if (t < 1.0/6.0) return p + (q - p) * 6.0 * t;
if (t < 0.5) return q;
if (t < 2.0/3.0) return p + (q - p) * (2.0/3.0 - t) * 6.0;
return p;
}
vec3 hsl2rgb(vec3 hsl) {
if (hsl.y < EPSILON) return vec3(hsl.z);
float q = hsl.z < 0.5
? hsl.z * (1.0 + hsl.y)
: hsl.z + hsl.y - hsl.z * hsl.y;
float p = 2.0 * hsl.z - q;
return vec3(
hue2rgb(p, q, hsl.x + 1.0/3.0),
hue2rgb(p, q, hsl.x),
hue2rgb(p, q, hsl.x - 1.0/3.0)
);
}
vec3 rgb2hsb(vec3 c) {
float maxC = max(max(c.r, c.g), c.b);
float minC = min(min(c.r, c.g), c.b);
float delta = maxC - minC;
float h = 0.0;
float s = (maxC > EPSILON) ? delta / maxC : 0.0;
float b = maxC;
if (delta > EPSILON) {
if (maxC == c.r) {
h = (c.g - c.b) / delta + (c.g < c.b ? 6.0 : 0.0);
} else if (maxC == c.g) {
h = (c.b - c.r) / delta + 2.0;
} else {
h = (c.r - c.g) / delta + 4.0;
}
h /= 6.0;
}
return vec3(h, s, b);
}
vec3 hsb2rgb(vec3 hsb) {
vec3 rgb = clamp(abs(mod(hsb.x * 6.0 + vec3(0.0, 4.0, 2.0), 6.0) - 3.0) - 1.0, 0.0, 1.0);
return hsb.z * mix(vec3(1.0), rgb, hsb.y);
}
//=============================================================================
// Color Range Weight Calculation
//=============================================================================
float hueDistance(float a, float b) {
float d = abs(a - b);
return min(d, 1.0 - d);
}
float getHueWeight(float hue, float center, float overlap) {
float baseWidth = 1.0 / 6.0;
float feather = baseWidth * overlap;
float d = hueDistance(hue, center);
float inner = baseWidth * 0.5;
float outer = inner + feather;
return 1.0 - smoothstep(inner, outer, d);
}
float getModeWeight(float hue, int mode, float overlap) {
if (mode == MODE_MASTER || mode == MODE_COLORIZE) return 1.0;
if (mode == MODE_RED) {
return max(
getHueWeight(hue, 0.0, overlap),
getHueWeight(hue, 1.0, overlap)
);
}
float center = float(mode - 1) / 6.0;
return getHueWeight(hue, center, overlap);
}
//=============================================================================
// Adjustment Functions
//=============================================================================
float adjustLightness(float l, float amount) {
return amount > 0.0
? l + (1.0 - l) * amount
: l + l * amount;
}
float adjustBrightness(float b, float amount) {
return clamp(b + amount, 0.0, 1.0);
}
float adjustSaturation(float s, float amount) {
return amount > 0.0
? s + (1.0 - s) * amount
: s + s * amount;
}
vec3 colorize(vec3 rgb, float hue, float sat, float light) {
float lum = dot(rgb, vec3(0.299, 0.587, 0.114));
float l = adjustLightness(lum, light);
vec3 hsl = vec3(fract(hue), clamp(sat, 0.0, 1.0), clamp(l, 0.0, 1.0));
return hsl2rgb(hsl);
}
//=============================================================================
// Main
//=============================================================================
void main() {
vec4 original = texture(u_image0, v_texCoord);
float hueShift = u_float0 / 360.0; // -180..180 -> -0.5..0.5
float satAmount = u_float1 / 100.0; // -100..100 -> -1..1
float lightAmount= u_float2 / 100.0; // -100..100 -> -1..1
float overlap = u_float3 / 100.0; // 0..100 -> 0..1
vec3 result;
if (u_int0 == MODE_COLORIZE) {
result = colorize(original.rgb, hueShift, satAmount, lightAmount);
fragColor = vec4(result, original.a);
return;
}
vec3 hsx = (u_int1 == COLORSPACE_HSL)
? rgb2hsl(original.rgb)
: rgb2hsb(original.rgb);
float weight = getModeWeight(hsx.x, u_int0, overlap);
if (u_int0 != MODE_MASTER && hsx.y < EPSILON) {
weight = 0.0;
}
if (weight > EPSILON) {
float h = fract(hsx.x + hueShift * weight);
float s = clamp(adjustSaturation(hsx.y, satAmount * weight), 0.0, 1.0);
float v = (u_int1 == COLORSPACE_HSL)
? clamp(adjustLightness(hsx.z, lightAmount * weight), 0.0, 1.0)
: clamp(adjustBrightness(hsx.z, lightAmount * weight), 0.0, 1.0);
vec3 adjusted = vec3(h, s, v);
result = (u_int1 == COLORSPACE_HSL)
? hsl2rgb(adjusted)
: hsb2rgb(adjusted);
} else {
result = original.rgb;
}
fragColor = vec4(result, original.a);
}

111
blueprints/.glsl/Image_Blur_1.frag
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#version 300 es
#pragma passes 2
precision highp float;
// Blur type constants
const int BLUR_GAUSSIAN = 0;
const int BLUR_BOX = 1;
const int BLUR_RADIAL = 2;
// Radial blur config
const int RADIAL_SAMPLES = 12;
const float RADIAL_STRENGTH = 0.0003;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform int u_int0; // Blur type (BLUR_GAUSSIAN, BLUR_BOX, BLUR_RADIAL)
uniform float u_float0; // Blur radius/amount
uniform int u_pass; // Pass index (0 = horizontal, 1 = vertical)
in vec2 v_texCoord;
layout(location = 0) out vec4 fragColor0;
float gaussian(float x, float sigma) {
return exp(-(x * x) / (2.0 * sigma * sigma));
}
void main() {
vec2 texelSize = 1.0 / u_resolution;
float radius = max(u_float0, 0.0);
// Radial (angular) blur - single pass, doesn't use separable
if (u_int0 == BLUR_RADIAL) {
// Only execute on first pass
if (u_pass > 0) {
fragColor0 = texture(u_image0, v_texCoord);
return;
}
vec2 center = vec2(0.5);
vec2 dir = v_texCoord - center;
float dist = length(dir);
if (dist < 1e-4) {
fragColor0 = texture(u_image0, v_texCoord);
return;
}
vec4 sum = vec4(0.0);
float totalWeight = 0.0;
float angleStep = radius * RADIAL_STRENGTH;
dir /= dist;
float cosStep = cos(angleStep);
float sinStep = sin(angleStep);
float negAngle = -float(RADIAL_SAMPLES) * angleStep;
vec2 rotDir = vec2(
dir.x * cos(negAngle) - dir.y * sin(negAngle),
dir.x * sin(negAngle) + dir.y * cos(negAngle)
);
for (int i = -RADIAL_SAMPLES; i <= RADIAL_SAMPLES; i++) {
vec2 uv = center + rotDir * dist;
float w = 1.0 - abs(float(i)) / float(RADIAL_SAMPLES);
sum += texture(u_image0, uv) * w;
totalWeight += w;
rotDir = vec2(
rotDir.x * cosStep - rotDir.y * sinStep,
rotDir.x * sinStep + rotDir.y * cosStep
);
}
fragColor0 = sum / max(totalWeight, 0.001);
return;
}
// Separable Gaussian / Box blur
int samples = int(ceil(radius));
if (samples == 0) {
fragColor0 = texture(u_image0, v_texCoord);
return;
}
// Direction: pass 0 = horizontal, pass 1 = vertical
vec2 dir = (u_pass == 0) ? vec2(1.0, 0.0) : vec2(0.0, 1.0);
vec4 color = vec4(0.0);
float totalWeight = 0.0;
float sigma = radius / 2.0;
for (int i = -samples; i <= samples; i++) {
vec2 offset = dir * float(i) * texelSize;
vec4 sample_color = texture(u_image0, v_texCoord + offset);
float weight;
if (u_int0 == BLUR_GAUSSIAN) {
weight = gaussian(float(i), sigma);
} else {
// BLUR_BOX
weight = 1.0;
}
color += sample_color * weight;
totalWeight += weight;
}
fragColor0 = color / totalWeight;
}

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blueprints/.glsl/Image_Channels_23.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
in vec2 v_texCoord;
layout(location = 0) out vec4 fragColor0;
layout(location = 1) out vec4 fragColor1;
layout(location = 2) out vec4 fragColor2;
layout(location = 3) out vec4 fragColor3;
void main() {
vec4 color = texture(u_image0, v_texCoord);
// Output each channel as grayscale to separate render targets
fragColor0 = vec4(vec3(color.r), 1.0); // Red channel
fragColor1 = vec4(vec3(color.g), 1.0); // Green channel
fragColor2 = vec4(vec3(color.b), 1.0); // Blue channel
fragColor3 = vec4(vec3(color.a), 1.0); // Alpha channel
}

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blueprints/.glsl/Image_Levels_1.frag
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#version 300 es
precision highp float;
// Levels Adjustment
// u_int0: channel (0=RGB, 1=R, 2=G, 3=B) default: 0
// u_float0: input black (0-255) default: 0
// u_float1: input white (0-255) default: 255
// u_float2: gamma (0.01-9.99) default: 1.0
// u_float3: output black (0-255) default: 0
// u_float4: output white (0-255) default: 255
uniform sampler2D u_image0;
uniform int u_int0;
uniform float u_float0;
uniform float u_float1;
uniform float u_float2;
uniform float u_float3;
uniform float u_float4;
in vec2 v_texCoord;
out vec4 fragColor;
vec3 applyLevels(vec3 color, float inBlack, float inWhite, float gamma, float outBlack, float outWhite) {
float inRange = max(inWhite - inBlack, 0.0001);
vec3 result = clamp((color - inBlack) / inRange, 0.0, 1.0);
result = pow(result, vec3(1.0 / gamma));
result = mix(vec3(outBlack), vec3(outWhite), result);
return result;
}
float applySingleChannel(float value, float inBlack, float inWhite, float gamma, float outBlack, float outWhite) {
float inRange = max(inWhite - inBlack, 0.0001);
float result = clamp((value - inBlack) / inRange, 0.0, 1.0);
result = pow(result, 1.0 / gamma);
result = mix(outBlack, outWhite, result);
return result;
}
void main() {
vec4 texColor = texture(u_image0, v_texCoord);
vec3 color = texColor.rgb;
float inBlack = u_float0 / 255.0;
float inWhite = u_float1 / 255.0;
float gamma = u_float2;
float outBlack = u_float3 / 255.0;
float outWhite = u_float4 / 255.0;
vec3 result;
if (u_int0 == 0) {
result = applyLevels(color, inBlack, inWhite, gamma, outBlack, outWhite);
}
else if (u_int0 == 1) {
result = color;
result.r = applySingleChannel(color.r, inBlack, inWhite, gamma, outBlack, outWhite);
}
else if (u_int0 == 2) {
result = color;
result.g = applySingleChannel(color.g, inBlack, inWhite, gamma, outBlack, outWhite);
}
else if (u_int0 == 3) {
result = color;
result.b = applySingleChannel(color.b, inBlack, inWhite, gamma, outBlack, outWhite);
}
else {
result = color;
}
fragColor = vec4(result, texColor.a);
}

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blueprints/.glsl/README.md
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# GLSL Shader Sources
This folder contains the GLSL fragment shaders extracted from blueprint JSON files for easier editing and version control.
## File Naming Convention
`{Blueprint_Name}_{node_id}.frag`
- **Blueprint_Name**: The JSON filename with spaces/special chars replaced by underscores
- **node_id**: The GLSLShader node ID within the subgraph
## Usage
```bash
# Extract shaders from blueprint JSONs to this folder
python update_blueprints.py extract
# Patch edited shaders back into blueprint JSONs
python update_blueprints.py patch
```
## Workflow
1. Run `extract` to pull current shaders from JSONs
2. Edit `.frag` files
3. Run `patch` to update the blueprint JSONs
4. Test
5. Commit both `.frag` files and updated JSONs

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blueprints/.glsl/Sharpen_23.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform float u_float0; // strength [0.0 2.0] typical: 0.31.0
in vec2 v_texCoord;
layout(location = 0) out vec4 fragColor0;
void main() {
vec2 texel = 1.0 / u_resolution;
// Sample center and neighbors
vec4 center = texture(u_image0, v_texCoord);
vec4 top = texture(u_image0, v_texCoord + vec2( 0.0, -texel.y));
vec4 bottom = texture(u_image0, v_texCoord + vec2( 0.0, texel.y));
vec4 left = texture(u_image0, v_texCoord + vec2(-texel.x, 0.0));
vec4 right = texture(u_image0, v_texCoord + vec2( texel.x, 0.0));
// Edge enhancement (Laplacian)
vec4 edges = center * 4.0 - top - bottom - left - right;
// Add edges back scaled by strength
vec4 sharpened = center + edges * u_float0;
fragColor0 = vec4(clamp(sharpened.rgb, 0.0, 1.0), center.a);
}

61
blueprints/.glsl/Unsharp_Mask_26.frag
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#version 300 es
precision highp float;
uniform sampler2D u_image0;
uniform vec2 u_resolution;
uniform float u_float0; // amount [0.0 - 3.0] typical: 0.5-1.5
uniform float u_float1; // radius [0.5 - 10.0] blur radius in pixels
uniform float u_float2; // threshold [0.0 - 0.1] min difference to sharpen
in vec2 v_texCoord;
layout(location = 0) out vec4 fragColor0;
float gaussian(float x, float sigma) {
return exp(-(x * x) / (2.0 * sigma * sigma));
}
float getLuminance(vec3 color) {
return dot(color, vec3(0.2126, 0.7152, 0.0722));
}
void main() {
vec2 texel = 1.0 / u_resolution;
float radius = max(u_float1, 0.5);
float amount = u_float0;
float threshold = u_float2;
vec4 original = texture(u_image0, v_texCoord);
// Gaussian blur for the "unsharp" mask
int samples = int(ceil(radius));
float sigma = radius / 2.0;
vec4 blurred = vec4(0.0);
float totalWeight = 0.0;
for (int x = -samples; x <= samples; x++) {
for (int y = -samples; y <= samples; y++) {
vec2 offset = vec2(float(x), float(y)) * texel;
vec4 sample_color = texture(u_image0, v_texCoord + offset);
float dist = length(vec2(float(x), float(y)));
float weight = gaussian(dist, sigma);
blurred += sample_color * weight;
totalWeight += weight;
}
}
blurred /= totalWeight;
// Unsharp mask = original - blurred
vec3 mask = original.rgb - blurred.rgb;
// Luminance-based threshold with smooth falloff
float lumaDelta = abs(getLuminance(original.rgb) - getLuminance(blurred.rgb));
float thresholdScale = smoothstep(0.0, threshold, lumaDelta);
mask *= thresholdScale;
// Sharpen: original + mask * amount
vec3 sharpened = original.rgb + mask * amount;
fragColor0 = vec4(clamp(sharpened, 0.0, 1.0), original.a);
}

159
blueprints/.glsl/update_blueprints.py
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#!/usr/bin/env python3
"""
Shader Blueprint Updater
Syncs GLSL shader files between this folder and blueprint JSON files.
File naming convention:
{Blueprint Name}_{node_id}.frag
Usage:
python update_blueprints.py extract # Extract shaders from JSONs to here
python update_blueprints.py patch # Patch shaders back into JSONs
python update_blueprints.py # Same as patch (default)
"""
import json
import logging
import sys
import re
from pathlib import Path
logging.basicConfig(level=logging.INFO, format='%(message)s')
logger = logging.getLogger(__name__)
GLSL_DIR = Path(__file__).parent
BLUEPRINTS_DIR = GLSL_DIR.parent
def get_blueprint_files():
"""Get all blueprint JSON files."""
return sorted(BLUEPRINTS_DIR.glob("*.json"))
def sanitize_filename(name):
"""Convert blueprint name to safe filename."""
return re.sub(r'[^\w\-]', '_', name)
def extract_shaders():
"""Extract all shaders from blueprint JSONs to this folder."""
extracted = 0
for json_path in get_blueprint_files():
blueprint_name = json_path.stem
try:
with open(json_path, 'r') as f:
data = json.load(f)
except (json.JSONDecodeError, IOError) as e:
logger.warning("Skipping %s: %s", json_path.name, e)
continue
# Find GLSLShader nodes in subgraphs
for subgraph in data.get('definitions', {}).get('subgraphs', []):
for node in subgraph.get('nodes', []):
if node.get('type') == 'GLSLShader':
node_id = node.get('id')
widgets = node.get('widgets_values', [])
# Find shader code (first string that looks like GLSL)
for widget in widgets:
if isinstance(widget, str) and widget.startswith('#version'):
safe_name = sanitize_filename(blueprint_name)
frag_name = f"{safe_name}_{node_id}.frag"
frag_path = GLSL_DIR / frag_name
with open(frag_path, 'w') as f:
f.write(widget)
logger.info(" Extracted: %s", frag_name)
extracted += 1
break
logger.info("\nExtracted %d shader(s)", extracted)
def patch_shaders():
"""Patch shaders from this folder back into blueprint JSONs."""
# Build lookup: blueprint_name -> [(node_id, shader_code), ...]
shader_updates = {}
for frag_path in sorted(GLSL_DIR.glob("*.frag")):
# Parse filename: {blueprint_name}_{node_id}.frag
parts = frag_path.stem.rsplit('_', 1)
if len(parts) != 2:
logger.warning("Skipping %s: invalid filename format", frag_path.name)
continue
blueprint_name, node_id_str = parts
try:
node_id = int(node_id_str)
except ValueError:
logger.warning("Skipping %s: invalid node_id", frag_path.name)
continue
with open(frag_path, 'r') as f:
shader_code = f.read()
if blueprint_name not in shader_updates:
shader_updates[blueprint_name] = []
shader_updates[blueprint_name].append((node_id, shader_code))
# Apply updates to JSON files
patched = 0
for json_path in get_blueprint_files():
blueprint_name = sanitize_filename(json_path.stem)
if blueprint_name not in shader_updates:
continue
try:
with open(json_path, 'r') as f:
data = json.load(f)
except (json.JSONDecodeError, IOError) as e:
logger.error("Error reading %s: %s", json_path.name, e)
continue
modified = False
for node_id, shader_code in shader_updates[blueprint_name]:
# Find the node and update
for subgraph in data.get('definitions', {}).get('subgraphs', []):
for node in subgraph.get('nodes', []):
if node.get('id') == node_id and node.get('type') == 'GLSLShader':
widgets = node.get('widgets_values', [])
if len(widgets) > 0 and widgets[0] != shader_code:
widgets[0] = shader_code
modified = True
logger.info(" Patched: %s (node %d)", json_path.name, node_id)
patched += 1
if modified:
with open(json_path, 'w') as f:
json.dump(data, f)
if patched == 0:
logger.info("No changes to apply.")
else:
logger.info("\nPatched %d shader(s)", patched)
def main():
if len(sys.argv) < 2:
command = "patch"
else:
command = sys.argv[1].lower()
if command == "extract":
logger.info("Extracting shaders from blueprints...")
extract_shaders()
elif command in ("patch", "update", "apply"):
logger.info("Patching shaders into blueprints...")
patch_shaders()
else:
logger.info(__doc__)
sys.exit(1)
if __name__ == "__main__":
main()

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blueprints/Brightness and Contrast.json
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{"revision":0,"last_node_id":140,"last_link_id":0,"nodes":[{"id":140,"type":"916dff42-6166-4d45-b028-04eaf69fbb35","pos":[500,1440],"size":[250,178],"flags":{},"order":2,"mode":0,"inputs":[{"label":"image","localized_name":"images.image0","name":"images.image0","type":"IMAGE","link":null}],"outputs":[{"label":"IMAGE","localized_name":"IMAGE0","name":"IMAGE0","type":"IMAGE","links":[]}],"properties":{"proxyWidgets":[["4","value"],["5","value"]]},"widgets_values":[],"title":"Brightness and Contrast"}],"links":[],"version":0.4,"definitions":{"subgraphs":[{"id":"916dff42-6166-4d45-b028-04eaf69fbb35","version":1,"state":{"lastGroupId":0,"lastNodeId":143,"lastLinkId":118,"lastRerouteId":0},"revision":0,"config":{},"name":"Brightness and Contrast","inputNode":{"id":-10,"bounding":[360,-176,120,60]},"outputNode":{"id":-20,"bounding":[1410,-176,120,60]},"inputs":[{"id":"a5aae7ea-b511-4045-b5da-94101e269cd7","name":"images.image0","type":"IMAGE","linkIds":[117],"localized_name":"images.image0","label":"image","pos":[460,-156]}],"outputs":[{"id":"30b72604-69b3-4944-b253-a9099bbd73a9","name":"IMAGE0","type":"IMAGE","linkIds":[118],"localized_name":"IMAGE0","label":"IMAGE","pos":[1430,-156]}],"widgets":[],"nodes":[{"id":4,"type":"PrimitiveFloat","pos":[540,-280],"size":[270,58],"flags":{},"order":0,"mode":0,"inputs":[{"label":"brightness","localized_name":"value","name":"value","type":"FLOAT","widget":{"name":"value"},"link":null}],"outputs":[{"localized_name":"FLOAT","name":"FLOAT","type":"FLOAT","links":[115]}],"properties":{"Node name for S&R":"PrimitiveFloat","min":0,"max":100,"precision":1,"step":1},"widgets_values":[50]},{"id":5,"type":"PrimitiveFloat","pos":[540,-170],"size":[270,58],"flags":{},"order":1,"mode":0,"inputs":[{"label":"contrast","localized_name":"value","name":"value","type":"FLOAT","widget":{"name":"value"},"link":null}],"outputs":[{"localized_name":"FLOAT","name":"FLOAT","type":"FLOAT","links":[116]}],"properties":{"Node name for S&R":"PrimitiveFloat","min":0,"max":100,"precision":1,"step":1},"widgets_values":[0]},{"id":143,"type":"GLSLShader","pos":[840,-280],"size":[400,212],"flags":{},"order":2,"mode":0,"inputs":[{"label":"image0","localized_name":"images.image0","name":"images.image0","type":"IMAGE","link":117},{"label":"image1","localized_name":"images.image1","name":"images.image1","shape":7,"type":"IMAGE","link":null},{"label":"u_float0","localized_name":"floats.u_float0","name":"floats.u_float0","shape":7,"type":"FLOAT","link":115},{"label":"u_float1","localized_name":"floats.u_float1","name":"floats.u_float1","shape":7,"type":"FLOAT","link":116},{"label":"u_float2","localized_name":"floats.u_float2","name":"floats.u_float2","shape":7,"type":"FLOAT","link":null},{"label":"u_int0","localized_name":"ints.u_int0","name":"ints.u_int0","shape":7,"type":"INT","link":null},{"localized_name":"fragment_shader","name":"fragment_shader","type":"STRING","widget":{"name":"fragment_shader"},"link":null},{"localized_name":"size_mode","name":"size_mode","type":"COMFY_DYNAMICCOMBO_V3","widget":{"name":"size_mode"},"link":null}],"outputs":[{"localized_name":"IMAGE0","name":"IMAGE0","type":"IMAGE","links":[118]},{"localized_name":"IMAGE1","name":"IMAGE1","type":"IMAGE","links":null},{"localized_name":"IMAGE2","name":"IMAGE2","type":"IMAGE","links":null},{"localized_name":"IMAGE3","name":"IMAGE3","type":"IMAGE","links":null}],"properties":{"Node name for S&R":"GLSLShader"},"widgets_values":["#version 300 es\nprecision highp float;\n\nuniform sampler2D u_image0;\nuniform float u_float0; // Brightness slider -100..100\nuniform float u_float1; // Contrast slider -100..100\n\nin vec2 v_texCoord;\nout vec4 fragColor;\n\nconst float MID_GRAY = 0.18; // 18% reflectance\n\n// sRGB gamma 2.2 approximation\nvec3 srgbToLinear(vec3 c) {\n return pow(max(c, 0.0), vec3(2.2));\n}\n\nvec3 linearToSrgb(vec3 c) {\n return pow(max(c, 0.0), vec3(1.0/2.2));\n}\n\nfloat mapBrightness(float b) {\n return clamp(b / 100.0, -1.0, 1.0);\n}\n\nfloat mapContrast(float c) {\n return clamp(c / 100.0 + 1.0, 0.0, 2.0);\n}\n\nvoid main() {\n vec4 orig = texture(u_image0, v_texCoord);\n\n float brightness = mapBrightness(u_float0);\n float contrast = mapContrast(u_float1);\n\n vec3 lin = srgbToLinear(orig.rgb);\n\n lin = (lin - MID_GRAY) * contrast + brightness + MID_GRAY;\n\n // Convert back to sRGB\n vec3 result = linearToSrgb(clamp(lin, 0.0, 1.0));\n\n fragColor = vec4(result, orig.a);\n}\n","from_input"]}],"groups":[],"links":[{"id":115,"origin_id":4,"origin_slot":0,"target_id":143,"target_slot":2,"type":"FLOAT"},{"id":116,"origin_id":5,"origin_slot":0,"target_id":143,"target_slot":3,"type":"FLOAT"},{"id":117,"origin_id":-10,"origin_slot":0,"target_id":143,"target_slot":0,"type":"IMAGE"},{"id":118,"origin_id":143,"origin_slot":0,"target_id":-20,"target_slot":0,"type":"IMAGE"}],"extra":{"workflowRendererVersion":"LG"}}]},"extra":{}}

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blueprints/Chromatic Aberration.json
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blueprints/Color Adjustment.json
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blueprints/Edge-Preserving Blur.json
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blueprints/Film Grain.json
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blueprints/Glow.json
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blueprints/Image Blur.json
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blueprints/Image Channels.json
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{"revision": 0, "last_node_id": 29, "last_link_id": 0, "nodes": [{"id": 29, "type": "4c9d6ea4-b912-40e5-8766-6793a9758c53", "pos": [1970, -230], "size": [180, 86], "flags": {}, "order": 5, "mode": 0, "inputs": [{"label": "image", "localized_name": "images.image0", "name": "images.image0", "type": "IMAGE", "link": null}], "outputs": [{"label": "R", "localized_name": "IMAGE0", "name": "IMAGE0", "type": "IMAGE", "links": []}, {"label": "G", "localized_name": "IMAGE1", "name": "IMAGE1", "type": "IMAGE", "links": []}, {"label": "B", "localized_name": "IMAGE2", "name": "IMAGE2", "type": "IMAGE", "links": []}, {"label": "A", "localized_name": "IMAGE3", "name": "IMAGE3", "type": "IMAGE", "links": []}], "title": "Image Channels", "properties": {"proxyWidgets": []}, "widgets_values": []}], "links": [], "version": 0.4, "definitions": {"subgraphs": [{"id": "4c9d6ea4-b912-40e5-8766-6793a9758c53", "version": 1, "state": {"lastGroupId": 0, "lastNodeId": 28, "lastLinkId": 39, "lastRerouteId": 0}, "revision": 0, "config": {}, "name": "Image Channels", "inputNode": {"id": -10, "bounding": [1820, -185, 120, 60]}, "outputNode": {"id": -20, "bounding": [2460, -215, 120, 120]}, "inputs": [{"id": "3522932b-2d86-4a1f-a02a-cb29f3a9d7fe", "name": "images.image0", "type": "IMAGE", "linkIds": [39], "localized_name": "images.image0", "label": "image", "pos": [1920, -165]}], "outputs": [{"id": "605cb9c3-b065-4d9b-81d2-3ec331889b2b", "name": "IMAGE0", "type": "IMAGE", "linkIds": [26], "localized_name": "IMAGE0", "label": "R", "pos": [2480, -195]}, {"id": "fb44a77e-0522-43e9-9527-82e7465b3596", "name": "IMAGE1", "type": "IMAGE", "linkIds": [27], "localized_name": "IMAGE1", "label": "G", "pos": [2480, -175]}, {"id": "81460ee6-0131-402a-874f-6bf3001fc4ff", "name": "IMAGE2", "type": "IMAGE", "linkIds": [28], "localized_name": "IMAGE2", "label": "B", "pos": [2480, -155]}, {"id": "ae690246-80d4-4951-b1d9-9306d8a77417", "name": "IMAGE3", "type": "IMAGE", "linkIds": [29], "localized_name": "IMAGE3", "label": "A", "pos": [2480, -135]}], "widgets": [], "nodes": [{"id": 23, "type": "GLSLShader", "pos": [2000, -330], "size": [400, 172], "flags": {}, "order": 0, "mode": 0, "inputs": [{"label": "image", "localized_name": "images.image0", "name": "images.image0", "type": "IMAGE", "link": 39}, {"localized_name": "fragment_shader", "name": "fragment_shader", "type": "STRING", "widget": {"name": "fragment_shader"}, "link": null}, {"localized_name": "size_mode", "name": "size_mode", "type": "COMFY_DYNAMICCOMBO_V3", "widget": {"name": "size_mode"}, "link": null}, {"label": "image1", "localized_name": "images.image1", "name": "images.image1", "shape": 7, "type": "IMAGE", "link": null}], "outputs": [{"label": "R", "localized_name": "IMAGE0", "name": "IMAGE0", "type": "IMAGE", "links": [26]}, {"label": "G", "localized_name": "IMAGE1", "name": "IMAGE1", "type": "IMAGE", "links": [27]}, {"label": "B", "localized_name": "IMAGE2", "name": "IMAGE2", "type": "IMAGE", "links": [28]}, {"label": "A", "localized_name": "IMAGE3", "name": "IMAGE3", "type": "IMAGE", "links": [29]}], "properties": {"Node name for S&R": "GLSLShader"}, "widgets_values": ["#version 300 es\nprecision highp float;\n\nuniform sampler2D u_image0;\n\nin vec2 v_texCoord;\nlayout(location = 0) out vec4 fragColor0;\nlayout(location = 1) out vec4 fragColor1;\nlayout(location = 2) out vec4 fragColor2;\nlayout(location = 3) out vec4 fragColor3;\n\nvoid main() {\n vec4 color = texture(u_image0, v_texCoord);\n // Output each channel as grayscale to separate render targets\n fragColor0 = vec4(vec3(color.r), 1.0); // Red channel\n fragColor1 = vec4(vec3(color.g), 1.0); // Green channel\n fragColor2 = vec4(vec3(color.b), 1.0); // Blue channel\n fragColor3 = vec4(vec3(color.a), 1.0); // Alpha channel\n}\n", "from_input"]}], "groups": [], "links": [{"id": 39, "origin_id": -10, "origin_slot": 0, "target_id": 23, "target_slot": 0, "type": "IMAGE"}, {"id": 26, "origin_id": 23, "origin_slot": 0, "target_id": -20, "target_slot": 0, "type": "IMAGE"}, {"id": 27, "origin_id": 23, "origin_slot": 1, "target_id": -20, "target_slot": 1, "type": "IMAGE"}, {"id": 28, "origin_id": 23, "origin_slot": 2, "target_id": -20, "target_slot": 2, "type": "IMAGE"}, {"id": 29, "origin_id": 23, "origin_slot": 3, "target_id": -20, "target_slot": 3, "type": "IMAGE"}], "extra": {"workflowRendererVersion": "LG"}}]}}

1
blueprints/Image Levels.json
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1
blueprints/Sharpen.json
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@@ -1 +0,0 @@
{"revision":0,"last_node_id":25,"last_link_id":0,"nodes":[{"id":25,"type":"621ba4e2-22a8-482d-a369-023753198b7b","pos":[4610,-790],"size":[230,58],"flags":{},"order":4,"mode":0,"inputs":[{"label":"image","localized_name":"images.image0","name":"images.image0","type":"IMAGE","link":null}],"outputs":[{"label":"IMAGE","localized_name":"IMAGE0","name":"IMAGE0","type":"IMAGE","links":[]}],"title":"Sharpen","properties":{"proxyWidgets":[["24","value"]]},"widgets_values":[]}],"links":[],"version":0.4,"definitions":{"subgraphs":[{"id":"621ba4e2-22a8-482d-a369-023753198b7b","version":1,"state":{"lastGroupId":0,"lastNodeId":24,"lastLinkId":36,"lastRerouteId":0},"revision":0,"config":{},"name":"Sharpen","inputNode":{"id":-10,"bounding":[4090,-825,120,60]},"outputNode":{"id":-20,"bounding":[5150,-825,120,60]},"inputs":[{"id":"37011fb7-14b7-4e0e-b1a0-6a02e8da1fd7","name":"images.image0","type":"IMAGE","linkIds":[34],"localized_name":"images.image0","label":"image","pos":[4190,-805]}],"outputs":[{"id":"e9182b3f-635c-4cd4-a152-4b4be17ae4b9","name":"IMAGE0","type":"IMAGE","linkIds":[35],"localized_name":"IMAGE0","label":"IMAGE","pos":[5170,-805]}],"widgets":[],"nodes":[{"id":24,"type":"PrimitiveFloat","pos":[4280,-1240],"size":[270,58],"flags":{},"order":0,"mode":0,"inputs":[{"label":"strength","localized_name":"value","name":"value","type":"FLOAT","widget":{"name":"value"},"link":null}],"outputs":[{"localized_name":"FLOAT","name":"FLOAT","type":"FLOAT","links":[36]}],"properties":{"Node name for S&R":"PrimitiveFloat","min":0,"max":3,"precision":2,"step":0.05},"widgets_values":[0.5]},{"id":23,"type":"GLSLShader","pos":[4570,-1240],"size":[370,192],"flags":{},"order":1,"mode":0,"inputs":[{"label":"image0","localized_name":"images.image0","name":"images.image0","type":"IMAGE","link":34},{"label":"image1","localized_name":"images.image1","name":"images.image1","shape":7,"type":"IMAGE","link":null},{"label":"u_float0","localized_name":"floats.u_float0","name":"floats.u_float0","shape":7,"type":"FLOAT","link":36},{"label":"u_float1","localized_name":"floats.u_float1","name":"floats.u_float1","shape":7,"type":"FLOAT","link":null},{"label":"u_int0","localized_name":"ints.u_int0","name":"ints.u_int0","shape":7,"type":"INT","link":null},{"localized_name":"fragment_shader","name":"fragment_shader","type":"STRING","widget":{"name":"fragment_shader"},"link":null},{"localized_name":"size_mode","name":"size_mode","type":"COMFY_DYNAMICCOMBO_V3","widget":{"name":"size_mode"},"link":null}],"outputs":[{"localized_name":"IMAGE0","name":"IMAGE0","type":"IMAGE","links":[35]},{"localized_name":"IMAGE1","name":"IMAGE1","type":"IMAGE","links":null},{"localized_name":"IMAGE2","name":"IMAGE2","type":"IMAGE","links":null},{"localized_name":"IMAGE3","name":"IMAGE3","type":"IMAGE","links":null}],"properties":{"Node name for S&R":"GLSLShader"},"widgets_values":["#version 300 es\nprecision highp float;\n\nuniform sampler2D u_image0;\nuniform vec2 u_resolution;\nuniform float u_float0; // strength [0.0 2.0] typical: 0.31.0\n\nin vec2 v_texCoord;\nlayout(location = 0) out vec4 fragColor0;\n\nvoid main() {\n vec2 texel = 1.0 / u_resolution;\n \n // Sample center and neighbors\n vec4 center = texture(u_image0, v_texCoord);\n vec4 top = texture(u_image0, v_texCoord + vec2( 0.0, -texel.y));\n vec4 bottom = texture(u_image0, v_texCoord + vec2( 0.0, texel.y));\n vec4 left = texture(u_image0, v_texCoord + vec2(-texel.x, 0.0));\n vec4 right = texture(u_image0, v_texCoord + vec2( texel.x, 0.0));\n \n // Edge enhancement (Laplacian)\n vec4 edges = center * 4.0 - top - bottom - left - right;\n \n // Add edges back scaled by strength\n vec4 sharpened = center + edges * u_float0;\n \n fragColor0 = vec4(clamp(sharpened.rgb, 0.0, 1.0), center.a);\n}","from_input"]}],"groups":[],"links":[{"id":36,"origin_id":24,"origin_slot":0,"target_id":23,"target_slot":2,"type":"FLOAT"},{"id":34,"origin_id":-10,"origin_slot":0,"target_id":23,"target_slot":0,"type":"IMAGE"},{"id":35,"origin_id":23,"origin_slot":0,"target_id":-20,"target_slot":0,"type":"IMAGE"}],"extra":{"workflowRendererVersion":"LG"}}]}}

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blueprints/Unsharp Mask.json
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0
blueprints/put_blueprints_here
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53
comfy/audio_encoders/audio_encoders.py
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@@ -1,5 +1,4 @@
from .wav2vec2 import Wav2Vec2Model
from .whisper import WhisperLargeV3
import comfy.model_management
import comfy.ops
import comfy.utils
@@ -12,18 +11,7 @@ class AudioEncoderModel():
self.load_device = comfy.model_management.text_encoder_device()
offload_device = comfy.model_management.text_encoder_offload_device()
self.dtype = comfy.model_management.text_encoder_dtype(self.load_device)
model_type = config.pop("model_type")
model_config = dict(config)
model_config.update({
"dtype": self.dtype,
"device": offload_device,
"operations": comfy.ops.manual_cast
})
if model_type == "wav2vec2":
self.model = Wav2Vec2Model(**model_config)
elif model_type == "whisper3":
self.model = WhisperLargeV3(**model_config)
self.model = Wav2Vec2Model(dtype=self.dtype, device=offload_device, operations=comfy.ops.manual_cast)
self.model.eval()
self.patcher = comfy.model_patcher.ModelPatcher(self.model, load_device=self.load_device, offload_device=offload_device)
self.model_sample_rate = 16000
@@ -41,51 +29,14 @@ class AudioEncoderModel():
outputs = {}
outputs["encoded_audio"] = out
outputs["encoded_audio_all_layers"] = all_layers
outputs["audio_samples"] = audio.shape[2]
return outputs
def load_audio_encoder_from_sd(sd, prefix=""):
audio_encoder = AudioEncoderModel(None)
sd = comfy.utils.state_dict_prefix_replace(sd, {"wav2vec2.": ""})
if "encoder.layer_norm.bias" in sd: #wav2vec2
embed_dim = sd["encoder.layer_norm.bias"].shape[0]
if embed_dim == 1024:# large
config = {
"model_type": "wav2vec2",
"embed_dim": 1024,
"num_heads": 16,
"num_layers": 24,
"conv_norm": True,
"conv_bias": True,
"do_normalize": True,
"do_stable_layer_norm": True
}
elif embed_dim == 768: # base
config = {
"model_type": "wav2vec2",
"embed_dim": 768,
"num_heads": 12,
"num_layers": 12,
"conv_norm": False,
"conv_bias": False,
"do_normalize": False, # chinese-wav2vec2-base has this False
"do_stable_layer_norm": False
}
else:
raise RuntimeError("ERROR: audio encoder file is invalid or unsupported embed_dim: {}".format(embed_dim))
elif "model.encoder.embed_positions.weight" in sd:
sd = comfy.utils.state_dict_prefix_replace(sd, {"model.": ""})
config = {
"model_type": "whisper3",
}
else:
raise RuntimeError("ERROR: audio encoder not supported.")
audio_encoder = AudioEncoderModel(config)
m, u = audio_encoder.load_sd(sd)
if len(m) > 0:
logging.warning("missing audio encoder: {}".format(m))
if len(u) > 0:
logging.warning("unexpected audio encoder: {}".format(u))
return audio_encoder

85
comfy/audio_encoders/wav2vec2.py
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@@ -13,49 +13,19 @@ class LayerNormConv(nn.Module):
x = self.conv(x)
return torch.nn.functional.gelu(self.layer_norm(x.transpose(-2, -1)).transpose(-2, -1))
class LayerGroupNormConv(nn.Module):
def __init__(self, in_channels, out_channels, kernel_size, stride, bias=False, dtype=None, device=None, operations=None):
super().__init__()
self.conv = operations.Conv1d(in_channels, out_channels, kernel_size=kernel_size, stride=stride, bias=bias, device=device, dtype=dtype)
self.layer_norm = operations.GroupNorm(num_groups=out_channels, num_channels=out_channels, affine=True, device=device, dtype=dtype)
def forward(self, x):
x = self.conv(x)
return torch.nn.functional.gelu(self.layer_norm(x))
class ConvNoNorm(nn.Module):
def __init__(self, in_channels, out_channels, kernel_size, stride, bias=False, dtype=None, device=None, operations=None):
super().__init__()
self.conv = operations.Conv1d(in_channels, out_channels, kernel_size=kernel_size, stride=stride, bias=bias, device=device, dtype=dtype)
def forward(self, x):
x = self.conv(x)
return torch.nn.functional.gelu(x)
class ConvFeatureEncoder(nn.Module):
def __init__(self, conv_dim, conv_bias=False, conv_norm=True, dtype=None, device=None, operations=None):
def __init__(self, conv_dim, dtype=None, device=None, operations=None):
super().__init__()
if conv_norm:
self.conv_layers = nn.ModuleList([
LayerNormConv(1, conv_dim, kernel_size=10, stride=5, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=2, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=2, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
])
else:
self.conv_layers = nn.ModuleList([
LayerGroupNormConv(1, conv_dim, kernel_size=10, stride=5, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=3, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=2, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
ConvNoNorm(conv_dim, conv_dim, kernel_size=2, stride=2, bias=conv_bias, device=device, dtype=dtype, operations=operations),
])
self.conv_layers = nn.ModuleList([
LayerNormConv(1, conv_dim, kernel_size=10, stride=5, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=3, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=2, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
LayerNormConv(conv_dim, conv_dim, kernel_size=2, stride=2, bias=True, device=device, dtype=dtype, operations=operations),
])
def forward(self, x):
x = x.unsqueeze(1)
@@ -106,7 +76,6 @@ class TransformerEncoder(nn.Module):
num_heads=12,
num_layers=12,
mlp_ratio=4.0,
do_stable_layer_norm=True,
dtype=None, device=None, operations=None
):
super().__init__()
@@ -117,25 +86,20 @@ class TransformerEncoder(nn.Module):
embed_dim=embed_dim,
num_heads=num_heads,
mlp_ratio=mlp_ratio,
do_stable_layer_norm=do_stable_layer_norm,
device=device, dtype=dtype, operations=operations
)
for _ in range(num_layers)
])
self.layer_norm = operations.LayerNorm(embed_dim, eps=1e-05, device=device, dtype=dtype)
self.do_stable_layer_norm = do_stable_layer_norm
def forward(self, x, mask=None):
x = x + self.pos_conv_embed(x)
all_x = ()
if not self.do_stable_layer_norm:
x = self.layer_norm(x)
for layer in self.layers:
all_x += (x,)
x = layer(x, mask)
if self.do_stable_layer_norm:
x = self.layer_norm(x)
x = self.layer_norm(x)
all_x += (x,)
return x, all_x
@@ -181,7 +145,6 @@ class TransformerEncoderLayer(nn.Module):
embed_dim=768,
num_heads=12,
mlp_ratio=4.0,
do_stable_layer_norm=True,
dtype=None, device=None, operations=None
):
super().__init__()
@@ -191,19 +154,15 @@ class TransformerEncoderLayer(nn.Module):
self.layer_norm = operations.LayerNorm(embed_dim, device=device, dtype=dtype)
self.feed_forward = FeedForward(embed_dim, mlp_ratio, device=device, dtype=dtype, operations=operations)
self.final_layer_norm = operations.LayerNorm(embed_dim, device=device, dtype=dtype)
self.do_stable_layer_norm = do_stable_layer_norm
def forward(self, x, mask=None):
residual = x
if self.do_stable_layer_norm:
x = self.layer_norm(x)
x = self.layer_norm(x)
x = self.attention(x, mask=mask)
x = residual + x
if not self.do_stable_layer_norm:
x = self.layer_norm(x)
return self.final_layer_norm(x + self.feed_forward(x))
else:
return x + self.feed_forward(self.final_layer_norm(x))
x = x + self.feed_forward(self.final_layer_norm(x))
return x
class Wav2Vec2Model(nn.Module):
@@ -215,38 +174,34 @@ class Wav2Vec2Model(nn.Module):
final_dim=256,
num_heads=16,
num_layers=24,
conv_norm=True,
conv_bias=True,
do_normalize=True,
do_stable_layer_norm=True,
dtype=None, device=None, operations=None
):
super().__init__()
conv_dim = 512
self.feature_extractor = ConvFeatureEncoder(conv_dim, conv_norm=conv_norm, conv_bias=conv_bias, device=device, dtype=dtype, operations=operations)
self.feature_extractor = ConvFeatureEncoder(conv_dim, device=device, dtype=dtype, operations=operations)
self.feature_projection = FeatureProjection(conv_dim, embed_dim, device=device, dtype=dtype, operations=operations)
self.masked_spec_embed = nn.Parameter(torch.empty(embed_dim, device=device, dtype=dtype))
self.do_normalize = do_normalize
self.encoder = TransformerEncoder(
embed_dim=embed_dim,
num_heads=num_heads,
num_layers=num_layers,
do_stable_layer_norm=do_stable_layer_norm,
device=device, dtype=dtype, operations=operations
)
def forward(self, x, mask_time_indices=None, return_dict=False):
x = torch.mean(x, dim=1)
if self.do_normalize:
x = (x - x.mean()) / torch.sqrt(x.var() + 1e-7)
x = (x - x.mean()) / torch.sqrt(x.var() + 1e-7)
features = self.feature_extractor(x)
features = self.feature_projection(features)
batch_size, seq_len, _ = features.shape
x, all_x = self.encoder(features)
return x, all_x

186
comfy/audio_encoders/whisper.py
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@@ -1,186 +0,0 @@
import torch
import torch.nn as nn
import torch.nn.functional as F
import torchaudio
from typing import Optional
from comfy.ldm.modules.attention import optimized_attention_masked
import comfy.ops
class WhisperFeatureExtractor(nn.Module):
def __init__(self, n_mels=128, device=None):
super().__init__()
self.sample_rate = 16000
self.n_fft = 400
self.hop_length = 160
self.n_mels = n_mels
self.chunk_length = 30
self.n_samples = 480000
self.mel_spectrogram = torchaudio.transforms.MelSpectrogram(
sample_rate=self.sample_rate,
n_fft=self.n_fft,
hop_length=self.hop_length,
n_mels=self.n_mels,
f_min=0,
f_max=8000,
norm="slaney",
mel_scale="slaney",
).to(device)
def __call__(self, audio):
audio = torch.mean(audio, dim=1)
batch_size = audio.shape[0]
processed_audio = []
for i in range(batch_size):
aud = audio[i]
if aud.shape[0] > self.n_samples:
aud = aud[:self.n_samples]
elif aud.shape[0] < self.n_samples:
aud = F.pad(aud, (0, self.n_samples - aud.shape[0]))
processed_audio.append(aud)
audio = torch.stack(processed_audio)
mel_spec = self.mel_spectrogram(audio.to(self.mel_spectrogram.spectrogram.window.device))[:, :, :-1].to(audio.device)
log_mel_spec = torch.clamp(mel_spec, min=1e-10).log10()
log_mel_spec = torch.maximum(log_mel_spec, log_mel_spec.max() - 8.0)
log_mel_spec = (log_mel_spec + 4.0) / 4.0
return log_mel_spec
class MultiHeadAttention(nn.Module):
def __init__(self, d_model: int, n_heads: int, dtype=None, device=None, operations=None):
super().__init__()
assert d_model % n_heads == 0
self.d_model = d_model
self.n_heads = n_heads
self.d_k = d_model // n_heads
self.q_proj = operations.Linear(d_model, d_model, dtype=dtype, device=device)
self.k_proj = operations.Linear(d_model, d_model, bias=False, dtype=dtype, device=device)
self.v_proj = operations.Linear(d_model, d_model, dtype=dtype, device=device)
self.out_proj = operations.Linear(d_model, d_model, dtype=dtype, device=device)
def forward(
self,
query: torch.Tensor,
key: torch.Tensor,
value: torch.Tensor,
mask: Optional[torch.Tensor] = None,
) -> torch.Tensor:
batch_size, seq_len, _ = query.shape
q = self.q_proj(query)
k = self.k_proj(key)
v = self.v_proj(value)
attn_output = optimized_attention_masked(q, k, v, self.n_heads, mask)
attn_output = self.out_proj(attn_output)
return attn_output
class EncoderLayer(nn.Module):
def __init__(self, d_model: int, n_heads: int, d_ff: int, dtype=None, device=None, operations=None):
super().__init__()
self.self_attn = MultiHeadAttention(d_model, n_heads, dtype=dtype, device=device, operations=operations)
self.self_attn_layer_norm = operations.LayerNorm(d_model, dtype=dtype, device=device)
self.fc1 = operations.Linear(d_model, d_ff, dtype=dtype, device=device)
self.fc2 = operations.Linear(d_ff, d_model, dtype=dtype, device=device)
self.final_layer_norm = operations.LayerNorm(d_model, dtype=dtype, device=device)
def forward(
self,
x: torch.Tensor,
attention_mask: Optional[torch.Tensor] = None
) -> torch.Tensor:
residual = x
x = self.self_attn_layer_norm(x)
x = self.self_attn(x, x, x, attention_mask)
x = residual + x
residual = x
x = self.final_layer_norm(x)
x = self.fc1(x)
x = F.gelu(x)
x = self.fc2(x)
x = residual + x
return x
class AudioEncoder(nn.Module):
def __init__(
self,
n_mels: int = 128,
n_ctx: int = 1500,
n_state: int = 1280,
n_head: int = 20,
n_layer: int = 32,
dtype=None,
device=None,
operations=None
):
super().__init__()
self.conv1 = operations.Conv1d(n_mels, n_state, kernel_size=3, padding=1, dtype=dtype, device=device)
self.conv2 = operations.Conv1d(n_state, n_state, kernel_size=3, stride=2, padding=1, dtype=dtype, device=device)
self.embed_positions = operations.Embedding(n_ctx, n_state, dtype=dtype, device=device)
self.layers = nn.ModuleList([
EncoderLayer(n_state, n_head, n_state * 4, dtype=dtype, device=device, operations=operations)
for _ in range(n_layer)
])
self.layer_norm = operations.LayerNorm(n_state, dtype=dtype, device=device)
def forward(self, x: torch.Tensor) -> torch.Tensor:
x = F.gelu(self.conv1(x))
x = F.gelu(self.conv2(x))
x = x.transpose(1, 2)
x = x + comfy.ops.cast_to_input(self.embed_positions.weight[:, :x.shape[1]], x)
all_x = ()
for layer in self.layers:
all_x += (x,)
x = layer(x)
x = self.layer_norm(x)
all_x += (x,)
return x, all_x
class WhisperLargeV3(nn.Module):
def __init__(
self,
n_mels: int = 128,
n_audio_ctx: int = 1500,
n_audio_state: int = 1280,
n_audio_head: int = 20,
n_audio_layer: int = 32,
dtype=None,
device=None,
operations=None
):
super().__init__()
self.feature_extractor = WhisperFeatureExtractor(n_mels=n_mels, device=device)
self.encoder = AudioEncoder(
n_mels, n_audio_ctx, n_audio_state, n_audio_head, n_audio_layer,
dtype=dtype, device=device, operations=operations
)
def forward(self, audio):
mel = self.feature_extractor(audio)
x, all_x = self.encoder(mel)
return x, all_x

3
comfy/cldm/cldm.py
View File

@@ -413,8 +413,7 @@ class ControlNet(nn.Module):
out_middle = []
if self.num_classes is not None:
if y is None:
raise ValueError("y is None, did you try using a controlnet for SDXL on SD1?")
assert y.shape[0] == x.shape[0]
emb = emb + self.label_emb(y)
h = x

26
comfy/cli_args.py
View File

@@ -97,13 +97,6 @@ class LatentPreviewMethod(enum.Enum):
Latent2RGB = "latent2rgb"
TAESD = "taesd"
@classmethod
def from_string(cls, value: str):
for member in cls:
if member.value == value:
return member
return None
parser.add_argument("--preview-method", type=LatentPreviewMethod, default=LatentPreviewMethod.NoPreviews, help="Default preview method for sampler nodes.", action=EnumAction)
parser.add_argument("--preview-size", type=int, default=512, help="Sets the maximum preview size for sampler nodes.")
@@ -112,7 +105,6 @@ cache_group = parser.add_mutually_exclusive_group()
cache_group.add_argument("--cache-classic", action="store_true", help="Use the old style (aggressive) caching.")
cache_group.add_argument("--cache-lru", type=int, default=0, help="Use LRU caching with a maximum of N node results cached. May use more RAM/VRAM.")
cache_group.add_argument("--cache-none", action="store_true", help="Reduced RAM/VRAM usage at the expense of executing every node for each run.")
cache_group.add_argument("--cache-ram", nargs='?', const=4.0, type=float, default=0, help="Use RAM pressure caching with the specified headroom threshold. If available RAM drops below the threhold the cache remove large items to free RAM. Default 4GB")
attn_group = parser.add_mutually_exclusive_group()
attn_group.add_argument("--use-split-cross-attention", action="store_true", help="Use the split cross attention optimization. Ignored when xformers is used.")
@@ -128,12 +120,6 @@ upcast.add_argument("--force-upcast-attention", action="store_true", help="Force
upcast.add_argument("--dont-upcast-attention", action="store_true", help="Disable all upcasting of attention. Should be unnecessary except for debugging.")
parser.add_argument("--enable-manager", action="store_true", help="Enable the ComfyUI-Manager feature.")
manager_group = parser.add_mutually_exclusive_group()
manager_group.add_argument("--disable-manager-ui", action="store_true", help="Disables only the ComfyUI-Manager UI and endpoints. Scheduled installations and similar background tasks will still operate.")
manager_group.add_argument("--enable-manager-legacy-ui", action="store_true", help="Enables the legacy UI of ComfyUI-Manager")
vram_group = parser.add_mutually_exclusive_group()
vram_group.add_argument("--gpu-only", action="store_true", help="Store and run everything (text encoders/CLIP models, etc... on the GPU).")
vram_group.add_argument("--highvram", action="store_true", help="By default models will be unloaded to CPU memory after being used. This option keeps them in GPU memory.")
@@ -144,8 +130,7 @@ vram_group.add_argument("--cpu", action="store_true", help="To use the CPU for e
parser.add_argument("--reserve-vram", type=float, default=None, help="Set the amount of vram in GB you want to reserve for use by your OS/other software. By default some amount is reserved depending on your OS.")
parser.add_argument("--async-offload", nargs='?', const=2, type=int, default=None, metavar="NUM_STREAMS", help="Use async weight offloading. An optional argument controls the amount of offload streams. Default is 2. Enabled by default on Nvidia.")
parser.add_argument("--disable-async-offload", action="store_true", help="Disable async weight offloading.")
parser.add_argument("--async-offload", action="store_true", help="Use async weight offloading.")
parser.add_argument("--force-non-blocking", action="store_true", help="Force ComfyUI to use non-blocking operations for all applicable tensors. This may improve performance on some non-Nvidia systems but can cause issues with some workflows.")
@@ -158,11 +143,8 @@ class PerformanceFeature(enum.Enum):
Fp16Accumulation = "fp16_accumulation"
Fp8MatrixMultiplication = "fp8_matrix_mult"
CublasOps = "cublas_ops"
AutoTune = "autotune"
parser.add_argument("--fast", nargs="*", type=PerformanceFeature, help="Enable some untested and potentially quality deteriorating optimizations. This is used to test new features so using it might crash your comfyui. --fast with no arguments enables everything. You can pass a list specific optimizations if you only want to enable specific ones. Current valid optimizations: {}".format(" ".join(map(lambda c: c.value, PerformanceFeature))))
parser.add_argument("--disable-pinned-memory", action="store_true", help="Disable pinned memory use.")
parser.add_argument("--fast", nargs="*", type=PerformanceFeature, help="Enable some untested and potentially quality deteriorating optimizations. --fast with no arguments enables everything. You can pass a list specific optimizations if you only want to enable specific ones. Current valid optimizations: fp16_accumulation fp8_matrix_mult cublas_ops")
parser.add_argument("--mmap-torch-files", action="store_true", help="Use mmap when loading ckpt/pt files.")
parser.add_argument("--disable-mmap", action="store_true", help="Don't use mmap when loading safetensors.")
@@ -174,14 +156,13 @@ parser.add_argument("--windows-standalone-build", action="store_true", help="Win
parser.add_argument("--disable-metadata", action="store_true", help="Disable saving prompt metadata in files.")
parser.add_argument("--disable-all-custom-nodes", action="store_true", help="Disable loading all custom nodes.")
parser.add_argument("--whitelist-custom-nodes", type=str, nargs='+', default=[], help="Specify custom node folders to load even when --disable-all-custom-nodes is enabled.")
parser.add_argument("--disable-api-nodes", action="store_true", help="Disable loading all api nodes. Also prevents the frontend from communicating with the internet.")
parser.add_argument("--disable-api-nodes", action="store_true", help="Disable loading all api nodes.")
parser.add_argument("--multi-user", action="store_true", help="Enables per-user storage.")
parser.add_argument("--verbose", default='INFO', const='DEBUG', nargs="?", choices=['DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'], help='Set the logging level')
parser.add_argument("--log-stdout", action="store_true", help="Send normal process output to stdout instead of stderr (default).")
# The default built-in provider hosted under web/
DEFAULT_VERSION_STRING = "comfyanonymous/ComfyUI@latest"
@@ -231,7 +212,6 @@ database_default_path = os.path.abspath(
os.path.join(os.path.dirname(__file__), "..", "user", "comfyui.db")
)
parser.add_argument("--database-url", type=str, default=f"sqlite:///{database_default_path}", help="Specify the database URL, e.g. for an in-memory database you can use 'sqlite:///:memory:'.")
parser.add_argument("--disable-assets-autoscan", action="store_true", help="Disable asset scanning on startup for database synchronization.")
if comfy.options.args_parsing:
args = parser.parse_args()

93
comfy/clip_model.py
View File

@@ -1,59 +1,6 @@
import torch
from comfy.ldm.modules.attention import optimized_attention_for_device
import comfy.ops
import math
def clip_preprocess(image, size=224, mean=[0.48145466, 0.4578275, 0.40821073], std=[0.26862954, 0.26130258, 0.27577711], crop=True):
image = image[:, :, :, :3] if image.shape[3] > 3 else image
mean = torch.tensor(mean, device=image.device, dtype=image.dtype)
std = torch.tensor(std, device=image.device, dtype=image.dtype)
image = image.movedim(-1, 1)
if not (image.shape[2] == size and image.shape[3] == size):
if crop:
scale = (size / min(image.shape[2], image.shape[3]))
scale_size = (round(scale * image.shape[2]), round(scale * image.shape[3]))
else:
scale_size = (size, size)
image = torch.nn.functional.interpolate(image, size=scale_size, mode="bicubic", antialias=True)
h = (image.shape[2] - size)//2
w = (image.shape[3] - size)//2
image = image[:,:,h:h+size,w:w+size]
image = torch.clip((255. * image), 0, 255).round() / 255.0
return (image - mean.view([3,1,1])) / std.view([3,1,1])
def siglip2_flex_calc_resolution(oh, ow, patch_size, max_num_patches, eps=1e-5):
def scale_dim(size, scale):
scaled = math.ceil(size * scale / patch_size) * patch_size
return max(patch_size, int(scaled))
# Binary search for optimal scale
lo, hi = eps / 10, 100.0
while hi - lo >= eps:
mid = (lo + hi) / 2
h, w = scale_dim(oh, mid), scale_dim(ow, mid)
if (h // patch_size) * (w // patch_size) <= max_num_patches:
lo = mid
else:
hi = mid
return scale_dim(oh, lo), scale_dim(ow, lo)
def siglip2_preprocess(image, size, patch_size, num_patches, mean=[0.5, 0.5, 0.5], std=[0.5, 0.5, 0.5], crop=True):
if size > 0:
return clip_preprocess(image, size=size, mean=mean, std=std, crop=crop)
image = image[:, :, :, :3] if image.shape[3] > 3 else image
mean = torch.tensor(mean, device=image.device, dtype=image.dtype)
std = torch.tensor(std, device=image.device, dtype=image.dtype)
image = image.movedim(-1, 1)
b, c, h, w = image.shape
h, w = siglip2_flex_calc_resolution(h, w, patch_size, num_patches)
image = torch.nn.functional.interpolate(image, size=(h, w), mode="bilinear", antialias=True)
image = torch.clip((255. * image), 0, 255).round() / 255.0
return (image - mean.view([3, 1, 1])) / std.view([3, 1, 1])
class CLIPAttention(torch.nn.Module):
def __init__(self, embed_dim, heads, dtype, device, operations):
@@ -114,12 +61,8 @@ class CLIPEncoder(torch.nn.Module):
def forward(self, x, mask=None, intermediate_output=None):
optimized_attention = optimized_attention_for_device(x.device, mask=mask is not None, small_input=True)
all_intermediate = None
if intermediate_output is not None:
if intermediate_output == "all":
all_intermediate = []
intermediate_output = None
elif intermediate_output < 0:
if intermediate_output < 0:
intermediate_output = len(self.layers) + intermediate_output
intermediate = None
@@ -127,12 +70,6 @@ class CLIPEncoder(torch.nn.Module):
x = l(x, mask, optimized_attention)
if i == intermediate_output:
intermediate = x.clone()
if all_intermediate is not None:
all_intermediate.append(x.unsqueeze(1).clone())
if all_intermediate is not None:
intermediate = torch.cat(all_intermediate, dim=1)
return x, intermediate
class CLIPEmbeddings(torch.nn.Module):
@@ -209,27 +146,6 @@ class CLIPTextModel(torch.nn.Module):
out = self.text_projection(x[2])
return (x[0], x[1], out, x[2])
def siglip2_pos_embed(embed_weight, embeds, orig_shape):
embed_weight_len = round(embed_weight.shape[0] ** 0.5)
embed_weight = comfy.ops.cast_to_input(embed_weight, embeds).movedim(1, 0).reshape(1, -1, embed_weight_len, embed_weight_len)
embed_weight = torch.nn.functional.interpolate(embed_weight, size=orig_shape, mode="bilinear", align_corners=False, antialias=True)
embed_weight = embed_weight.reshape(-1, embed_weight.shape[-2] * embed_weight.shape[-1]).movedim(0, 1)
return embeds + embed_weight
class Siglip2Embeddings(torch.nn.Module):
def __init__(self, embed_dim, num_channels=3, patch_size=14, image_size=224, model_type="", num_patches=None, dtype=None, device=None, operations=None):
super().__init__()
self.patch_embedding = operations.Linear(num_channels * patch_size * patch_size, embed_dim, dtype=dtype, device=device)
self.position_embedding = operations.Embedding(num_patches, embed_dim, dtype=dtype, device=device)
self.patch_size = patch_size
def forward(self, pixel_values):
b, c, h, w = pixel_values.shape
img = pixel_values.movedim(1, -1).reshape(b, h // self.patch_size, self.patch_size, w // self.patch_size, self.patch_size, c)
img = img.permute(0, 1, 3, 2, 4, 5)
img = img.reshape(b, img.shape[1] * img.shape[2], -1)
img = self.patch_embedding(img)
return siglip2_pos_embed(self.position_embedding.weight, img, (h // self.patch_size, w // self.patch_size))
class CLIPVisionEmbeddings(torch.nn.Module):
def __init__(self, embed_dim, num_channels=3, patch_size=14, image_size=224, model_type="", dtype=None, device=None, operations=None):
@@ -273,11 +189,8 @@ class CLIPVision(torch.nn.Module):
intermediate_activation = config_dict["hidden_act"]
model_type = config_dict["model_type"]
if model_type in ["siglip2_vision_model"]:
self.embeddings = Siglip2Embeddings(embed_dim, config_dict["num_channels"], config_dict["patch_size"], config_dict["image_size"], model_type=model_type, num_patches=config_dict.get("num_patches", None), dtype=dtype, device=device, operations=operations)
else:
self.embeddings = CLIPVisionEmbeddings(embed_dim, config_dict["num_channels"], config_dict["patch_size"], config_dict["image_size"], model_type=model_type, dtype=dtype, device=device, operations=operations)
if model_type in ["siglip_vision_model", "siglip2_vision_model"]:
self.embeddings = CLIPVisionEmbeddings(embed_dim, config_dict["num_channels"], config_dict["patch_size"], config_dict["image_size"], model_type=model_type, dtype=dtype, device=device, operations=operations)
if model_type == "siglip_vision_model":
self.pre_layrnorm = lambda a: a
self.output_layernorm = True
else:

64
comfy/clip_vision.py
View File

@@ -1,5 +1,6 @@
from .utils import load_torch_file, transformers_convert, state_dict_prefix_replace
import os
import torch
import json
import logging
@@ -16,12 +17,28 @@ class Output:
def __setitem__(self, key, item):
setattr(self, key, item)
clip_preprocess = comfy.clip_model.clip_preprocess # Prevent some stuff from breaking, TODO: remove eventually
def clip_preprocess(image, size=224, mean=[0.48145466, 0.4578275, 0.40821073], std=[0.26862954, 0.26130258, 0.27577711], crop=True):
image = image[:, :, :, :3] if image.shape[3] > 3 else image
mean = torch.tensor(mean, device=image.device, dtype=image.dtype)
std = torch.tensor(std, device=image.device, dtype=image.dtype)
image = image.movedim(-1, 1)
if not (image.shape[2] == size and image.shape[3] == size):
if crop:
scale = (size / min(image.shape[2], image.shape[3]))
scale_size = (round(scale * image.shape[2]), round(scale * image.shape[3]))
else:
scale_size = (size, size)
image = torch.nn.functional.interpolate(image, size=scale_size, mode="bicubic", antialias=True)
h = (image.shape[2] - size)//2
w = (image.shape[3] - size)//2
image = image[:,:,h:h+size,w:w+size]
image = torch.clip((255. * image), 0, 255).round() / 255.0
return (image - mean.view([3,1,1])) / std.view([3,1,1])
IMAGE_ENCODERS = {
"clip_vision_model": comfy.clip_model.CLIPVisionModelProjection,
"siglip_vision_model": comfy.clip_model.CLIPVisionModelProjection,
"siglip2_vision_model": comfy.clip_model.CLIPVisionModelProjection,
"dinov2": comfy.image_encoders.dino2.Dinov2Model,
}
@@ -33,14 +50,7 @@ class ClipVisionModel():
self.image_size = config.get("image_size", 224)
self.image_mean = config.get("image_mean", [0.48145466, 0.4578275, 0.40821073])
self.image_std = config.get("image_std", [0.26862954, 0.26130258, 0.27577711])
self.model_type = config.get("model_type", "clip_vision_model")
self.config = config.copy()
model_class = IMAGE_ENCODERS.get(self.model_type)
if self.model_type == "siglip_vision_model":
self.return_all_hidden_states = True
else:
self.return_all_hidden_states = False
model_class = IMAGE_ENCODERS.get(config.get("model_type", "clip_vision_model"))
self.load_device = comfy.model_management.text_encoder_device()
offload_device = comfy.model_management.text_encoder_offload_device()
self.dtype = comfy.model_management.text_encoder_dtype(self.load_device)
@@ -57,23 +67,13 @@ class ClipVisionModel():
def encode_image(self, image, crop=True):
comfy.model_management.load_model_gpu(self.patcher)
if self.model_type == "siglip2_vision_model":
pixel_values = comfy.clip_model.siglip2_preprocess(image.to(self.load_device), size=self.image_size, patch_size=self.config.get("patch_size", 16), num_patches=self.config.get("num_patches", 256), mean=self.image_mean, std=self.image_std, crop=crop).float()
else:
pixel_values = comfy.clip_model.clip_preprocess(image.to(self.load_device), size=self.image_size, mean=self.image_mean, std=self.image_std, crop=crop).float()
out = self.model(pixel_values=pixel_values, intermediate_output='all' if self.return_all_hidden_states else -2)
pixel_values = clip_preprocess(image.to(self.load_device), size=self.image_size, mean=self.image_mean, std=self.image_std, crop=crop).float()
out = self.model(pixel_values=pixel_values, intermediate_output=-2)
outputs = Output()
outputs["last_hidden_state"] = out[0].to(comfy.model_management.intermediate_device())
outputs["image_embeds"] = out[2].to(comfy.model_management.intermediate_device())
outputs["image_sizes"] = [pixel_values.shape[1:]] * pixel_values.shape[0]
if self.return_all_hidden_states:
all_hs = out[1].to(comfy.model_management.intermediate_device())
outputs["penultimate_hidden_states"] = all_hs[:, -2]
outputs["all_hidden_states"] = all_hs
else:
outputs["penultimate_hidden_states"] = out[1].to(comfy.model_management.intermediate_device())
outputs["penultimate_hidden_states"] = out[1].to(comfy.model_management.intermediate_device())
outputs["mm_projected"] = out[3]
return outputs
@@ -113,14 +113,10 @@ def load_clipvision_from_sd(sd, prefix="", convert_keys=False):
elif "vision_model.encoder.layers.22.layer_norm1.weight" in sd:
embed_shape = sd["vision_model.embeddings.position_embedding.weight"].shape[0]
if sd["vision_model.encoder.layers.0.layer_norm1.weight"].shape[0] == 1152:
patch_embedding_shape = sd["vision_model.embeddings.patch_embedding.weight"].shape
if len(patch_embedding_shape) == 2:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_siglip2_base_naflex.json")
else:
if embed_shape == 729:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_siglip_384.json")
elif embed_shape == 1024:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_siglip_512.json")
if embed_shape == 729:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_siglip_384.json")
elif embed_shape == 1024:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_siglip_512.json")
elif embed_shape == 577:
if "multi_modal_projector.linear_1.bias" in sd:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_config_vitl_336_llava.json")
@@ -128,12 +124,8 @@ def load_clipvision_from_sd(sd, prefix="", convert_keys=False):
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_config_vitl_336.json")
else:
json_config = os.path.join(os.path.dirname(os.path.realpath(__file__)), "clip_vision_config_vitl.json")
# Dinov2
elif 'encoder.layer.39.layer_scale2.lambda1' in sd:
elif "embeddings.patch_embeddings.projection.weight" in sd:
json_config = os.path.join(os.path.join(os.path.dirname(os.path.realpath(__file__)), "image_encoders"), "dino2_giant.json")
elif 'encoder.layer.23.layer_scale2.lambda1' in sd:
json_config = os.path.join(os.path.join(os.path.dirname(os.path.realpath(__file__)), "image_encoders"), "dino2_large.json")
else:
return None

14
comfy/clip_vision_siglip2_base_naflex.json
View File

@@ -1,14 +0,0 @@
{
"num_channels": 3,
"hidden_act": "gelu_pytorch_tanh",
"hidden_size": 1152,
"image_size": -1,
"intermediate_size": 4304,
"model_type": "siglip2_vision_model",
"num_attention_heads": 16,
"num_hidden_layers": 27,
"patch_size": 16,
"num_patches": 256,
"image_mean": [0.5, 0.5, 0.5],
"image_std": [0.5, 0.5, 0.5]
}

2
comfy/comfy_types/node_typing.py
View File

@@ -236,8 +236,6 @@ class ComfyNodeABC(ABC):
"""Flags a node as experimental, informing users that it may change or not work as expected."""
DEPRECATED: bool
"""Flags a node as deprecated, indicating to users that they should find alternatives to this node."""
DEV_ONLY: bool
"""Flags a node as dev-only, hiding it from search/menus unless dev mode is enabled."""
API_NODE: Optional[bool]
"""Flags a node as an API node. See: https://docs.comfy.org/tutorials/api-nodes/overview."""

123
comfy/context_windows.py
View File

@@ -51,43 +51,32 @@ class ContextHandlerABC(ABC):
class IndexListContextWindow(ContextWindowABC):
def __init__(self, index_list: list[int], dim: int=0, total_frames: int=0):
def __init__(self, index_list: list[int], dim: int=0):
self.index_list = index_list
self.context_length = len(index_list)
self.dim = dim
self.total_frames = total_frames
self.center_ratio = (min(index_list) + max(index_list)) / (2 * total_frames)
def get_tensor(self, full: torch.Tensor, device=None, dim=None, retain_index_list=[]) -> torch.Tensor:
def get_tensor(self, full: torch.Tensor, device=None, dim=None) -> torch.Tensor:
if dim is None:
dim = self.dim
if dim == 0 and full.shape[dim] == 1:
return full
idx = tuple([slice(None)] * dim + [self.index_list])
window = full[idx]
if retain_index_list:
idx = tuple([slice(None)] * dim + [retain_index_list])
window[idx] = full[idx]
return window.to(device)
idx = [slice(None)] * dim + [self.index_list]
return full[idx].to(device)
def add_window(self, full: torch.Tensor, to_add: torch.Tensor, dim=None) -> torch.Tensor:
if dim is None:
dim = self.dim
idx = tuple([slice(None)] * dim + [self.index_list])
idx = [slice(None)] * dim + [self.index_list]
full[idx] += to_add
return full
def get_region_index(self, num_regions: int) -> int:
region_idx = int(self.center_ratio * num_regions)
return min(max(region_idx, 0), num_regions - 1)
class IndexListCallbacks:
EVALUATE_CONTEXT_WINDOWS = "evaluate_context_windows"
COMBINE_CONTEXT_WINDOW_RESULTS = "combine_context_window_results"
EXECUTE_START = "execute_start"
EXECUTE_CLEANUP = "execute_cleanup"
RESIZE_COND_ITEM = "resize_cond_item"
def init_callbacks(self):
return {}
@@ -105,8 +94,7 @@ class ContextFuseMethod:
ContextResults = collections.namedtuple("ContextResults", ['window_idx', 'sub_conds_out', 'sub_conds', 'window'])
class IndexListContextHandler(ContextHandlerABC):
def __init__(self, context_schedule: ContextSchedule, fuse_method: ContextFuseMethod, context_length: int=1, context_overlap: int=0, context_stride: int=1,
closed_loop: bool=False, dim:int=0, freenoise: bool=False, cond_retain_index_list: list[int]=[], split_conds_to_windows: bool=False):
def __init__(self, context_schedule: ContextSchedule, fuse_method: ContextFuseMethod, context_length: int=1, context_overlap: int=0, context_stride: int=1, closed_loop=False, dim=0):
self.context_schedule = context_schedule
self.fuse_method = fuse_method
self.context_length = context_length
@@ -115,18 +103,13 @@ class IndexListContextHandler(ContextHandlerABC):
self.closed_loop = closed_loop
self.dim = dim
self._step = 0
self.freenoise = freenoise
self.cond_retain_index_list = [int(x.strip()) for x in cond_retain_index_list.split(",")] if cond_retain_index_list else []
self.split_conds_to_windows = split_conds_to_windows
self.callbacks = {}
def should_use_context(self, model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep: torch.Tensor, model_options: dict[str]) -> bool:
# for now, assume first dim is batch - should have stored on BaseModel in actual implementation
if x_in.size(self.dim) > self.context_length:
logging.info(f"Using context windows {self.context_length} with overlap {self.context_overlap} for {x_in.size(self.dim)} frames.")
if self.cond_retain_index_list:
logging.info(f"Retaining original cond for indexes: {self.cond_retain_index_list}")
logging.info(f"Using context windows {self.context_length} for {x_in.size(self.dim)} frames.")
return True
return False
@@ -140,11 +123,6 @@ class IndexListContextHandler(ContextHandlerABC):
return None
# reuse or resize cond items to match context requirements
resized_cond = []
# if multiple conds, split based on primary region
if self.split_conds_to_windows and len(cond_in) > 1:
region = window.get_region_index(len(cond_in))
logging.info(f"Splitting conds to windows; using region {region} for window {window.index_list[0]}-{window.index_list[-1]} with center ratio {window.center_ratio:.3f}")
cond_in = [cond_in[region]]
# cond object is a list containing a dict - outer list is irrelevant, so just loop through it
for actual_cond in cond_in:
resized_actual_cond = actual_cond.copy()
@@ -167,38 +145,13 @@ class IndexListContextHandler(ContextHandlerABC):
new_cond_item = cond_item.copy()
# when in dictionary, look for tensors and CONDCrossAttn [comfy/conds.py] (has cond attr that is a tensor)
for cond_key, cond_value in new_cond_item.items():
# Allow callbacks to handle custom conditioning items
handled = False
for callback in comfy.patcher_extension.get_all_callbacks(
IndexListCallbacks.RESIZE_COND_ITEM, self.callbacks
):
result = callback(cond_key, cond_value, window, x_in, device, new_cond_item)
if result is not None:
new_cond_item[cond_key] = result
handled = True
break
if handled:
continue
if isinstance(cond_value, torch.Tensor):
if (self.dim < cond_value.ndim and cond_value(self.dim) == x_in.size(self.dim)) or \
(cond_value.ndim < self.dim and cond_value.size(0) == x_in.size(self.dim)):
if cond_value.ndim < self.dim and cond_value.size(0) == x_in.size(self.dim):
new_cond_item[cond_key] = window.get_tensor(cond_value, device)
# Handle audio_embed (temporal dim is 1)
elif cond_key == "audio_embed" and hasattr(cond_value, "cond") and isinstance(cond_value.cond, torch.Tensor):
audio_cond = cond_value.cond
if audio_cond.ndim > 1 and audio_cond.size(1) == x_in.size(self.dim):
new_cond_item[cond_key] = cond_value._copy_with(window.get_tensor(audio_cond, device, dim=1))
# Handle vace_context (temporal dim is 3)
elif cond_key == "vace_context" and hasattr(cond_value, "cond") and isinstance(cond_value.cond, torch.Tensor):
vace_cond = cond_value.cond
if vace_cond.ndim >= 4 and vace_cond.size(3) == x_in.size(self.dim):
sliced_vace = window.get_tensor(vace_cond, device, dim=3, retain_index_list=self.cond_retain_index_list)
new_cond_item[cond_key] = cond_value._copy_with(sliced_vace)
# if has cond that is a Tensor, check if needs to be subset
elif hasattr(cond_value, "cond") and isinstance(cond_value.cond, torch.Tensor):
if (self.dim < cond_value.cond.ndim and cond_value.cond.size(self.dim) == x_in.size(self.dim)) or \
(cond_value.cond.ndim < self.dim and cond_value.cond.size(0) == x_in.size(self.dim)):
new_cond_item[cond_key] = cond_value._copy_with(window.get_tensor(cond_value.cond, device, retain_index_list=self.cond_retain_index_list))
if cond_value.cond.ndim < self.dim and cond_value.cond.size(0) == x_in.size(self.dim):
new_cond_item[cond_key] = cond_value._copy_with(window.get_tensor(cond_value.cond, device))
elif cond_key == "num_video_frames": # for SVD
new_cond_item[cond_key] = cond_value._copy_with(cond_value.cond)
new_cond_item[cond_key].cond = window.context_length
@@ -211,7 +164,7 @@ class IndexListContextHandler(ContextHandlerABC):
return resized_cond
def set_step(self, timestep: torch.Tensor, model_options: dict[str]):
mask = torch.isclose(model_options["transformer_options"]["sample_sigmas"], timestep[0], rtol=0.0001)
mask = torch.isclose(model_options["transformer_options"]["sample_sigmas"], timestep, rtol=0.0001)
matches = torch.nonzero(mask)
if torch.numel(matches) == 0:
raise Exception("No sample_sigmas matched current timestep; something went wrong.")
@@ -220,7 +173,7 @@ class IndexListContextHandler(ContextHandlerABC):
def get_context_windows(self, model: BaseModel, x_in: torch.Tensor, model_options: dict[str]) -> list[IndexListContextWindow]:
full_length = x_in.size(self.dim) # TODO: choose dim based on model
context_windows = self.context_schedule.func(full_length, self, model_options)
context_windows = [IndexListContextWindow(window, dim=self.dim, total_frames=full_length) for window in context_windows]
context_windows = [IndexListContextWindow(window, dim=self.dim) for window in context_windows]
return context_windows
def execute(self, calc_cond_batch: Callable, model: BaseModel, conds: list[list[dict]], x_in: torch.Tensor, timestep: torch.Tensor, model_options: dict[str]):
@@ -297,8 +250,8 @@ class IndexListContextHandler(ContextHandlerABC):
prev_weight = (bias_total / (bias_total + bias))
new_weight = (bias / (bias_total + bias))
# account for dims of tensors
idx_window = tuple([slice(None)] * self.dim + [idx])
pos_window = tuple([slice(None)] * self.dim + [pos])
idx_window = [slice(None)] * self.dim + [idx]
pos_window = [slice(None)] * self.dim + [pos]
# apply new values
conds_final[i][idx_window] = conds_final[i][idx_window] * prev_weight + sub_conds_out[i][pos_window] * new_weight
biases_final[i][idx] = bias_total + bias
@@ -334,28 +287,6 @@ def create_prepare_sampling_wrapper(model: ModelPatcher):
)
def _sampler_sample_wrapper(executor, guider, sigmas, extra_args, callback, noise, *args, **kwargs):
model_options = extra_args.get("model_options", None)
if model_options is None:
raise Exception("model_options not found in sampler_sample_wrapper; this should never happen, something went wrong.")
handler: IndexListContextHandler = model_options.get("context_handler", None)
if handler is None:
raise Exception("context_handler not found in sampler_sample_wrapper; this should never happen, something went wrong.")
if not handler.freenoise:
return executor(guider, sigmas, extra_args, callback, noise, *args, **kwargs)
noise = apply_freenoise(noise, handler.dim, handler.context_length, handler.context_overlap, extra_args["seed"])
return executor(guider, sigmas, extra_args, callback, noise, *args, **kwargs)
def create_sampler_sample_wrapper(model: ModelPatcher):
model.add_wrapper_with_key(
comfy.patcher_extension.WrappersMP.SAMPLER_SAMPLE,
"ContextWindows_sampler_sample",
_sampler_sample_wrapper
)
def match_weights_to_dim(weights: list[float], x_in: torch.Tensor, dim: int, device=None) -> torch.Tensor:
total_dims = len(x_in.shape)
weights_tensor = torch.Tensor(weights).to(device=device)
@@ -607,29 +538,3 @@ def shift_window_to_end(window: list[int], num_frames: int):
for i in range(len(window)):
# 2) add end_delta to each val to slide windows to end
window[i] = window[i] + end_delta
# https://github.com/Kosinkadink/ComfyUI-AnimateDiff-Evolved/blob/90fb1331201a4b29488089e4fbffc0d82cc6d0a9/animatediff/sample_settings.py#L465
def apply_freenoise(noise: torch.Tensor, dim: int, context_length: int, context_overlap: int, seed: int):
logging.info("Context windows: Applying FreeNoise")
generator = torch.Generator(device='cpu').manual_seed(seed)
latent_video_length = noise.shape[dim]
delta = context_length - context_overlap
for start_idx in range(0, latent_video_length - context_length, delta):
place_idx = start_idx + context_length
actual_delta = min(delta, latent_video_length - place_idx)
if actual_delta <= 0:
break
list_idx = torch.randperm(actual_delta, generator=generator, device='cpu') + start_idx
source_slice = [slice(None)] * noise.ndim
source_slice[dim] = list_idx
target_slice = [slice(None)] * noise.ndim
target_slice[dim] = slice(place_idx, place_idx + actual_delta)
noise[tuple(target_slice)] = noise[tuple(source_slice)]
return noise

33
comfy/controlnet.py
View File

@@ -253,10 +253,7 @@ class ControlNet(ControlBase):
to_concat = []
for c in self.extra_concat_orig:
c = c.to(self.cond_hint.device)
c = comfy.utils.common_upscale(c, self.cond_hint.shape[-1], self.cond_hint.shape[-2], self.upscale_algorithm, "center")
if c.ndim < self.cond_hint.ndim:
c = c.unsqueeze(2)
c = comfy.utils.repeat_to_batch_size(c, self.cond_hint.shape[2], dim=2)
c = comfy.utils.common_upscale(c, self.cond_hint.shape[3], self.cond_hint.shape[2], self.upscale_algorithm, "center")
to_concat.append(comfy.utils.repeat_to_batch_size(c, self.cond_hint.shape[0]))
self.cond_hint = torch.cat([self.cond_hint] + to_concat, dim=1)
@@ -310,13 +307,11 @@ class ControlLoraOps:
self.bias = None
def forward(self, input):
weight, bias, offload_stream = comfy.ops.cast_bias_weight(self, input, offloadable=True)
weight, bias = comfy.ops.cast_bias_weight(self, input)
if self.up is not None:
x = torch.nn.functional.linear(input, weight + (torch.mm(self.up.flatten(start_dim=1), self.down.flatten(start_dim=1))).reshape(self.weight.shape).type(input.dtype), bias)
return torch.nn.functional.linear(input, weight + (torch.mm(self.up.flatten(start_dim=1), self.down.flatten(start_dim=1))).reshape(self.weight.shape).type(input.dtype), bias)
else:
x = torch.nn.functional.linear(input, weight, bias)
comfy.ops.uncast_bias_weight(self, weight, bias, offload_stream)
return x
return torch.nn.functional.linear(input, weight, bias)
class Conv2d(torch.nn.Module, comfy.ops.CastWeightBiasOp):
def __init__(
@@ -352,13 +347,12 @@ class ControlLoraOps:
def forward(self, input):
weight, bias, offload_stream = comfy.ops.cast_bias_weight(self, input, offloadable=True)
weight, bias = comfy.ops.cast_bias_weight(self, input)
if self.up is not None:
x = torch.nn.functional.conv2d(input, weight + (torch.mm(self.up.flatten(start_dim=1), self.down.flatten(start_dim=1))).reshape(self.weight.shape).type(input.dtype), bias, self.stride, self.padding, self.dilation, self.groups)
return torch.nn.functional.conv2d(input, weight + (torch.mm(self.up.flatten(start_dim=1), self.down.flatten(start_dim=1))).reshape(self.weight.shape).type(input.dtype), bias, self.stride, self.padding, self.dilation, self.groups)
else:
x = torch.nn.functional.conv2d(input, weight, bias, self.stride, self.padding, self.dilation, self.groups)
comfy.ops.uncast_bias_weight(self, weight, bias, offload_stream)
return x
return torch.nn.functional.conv2d(input, weight, bias, self.stride, self.padding, self.dilation, self.groups)
class ControlLora(ControlNet):
def __init__(self, control_weights, global_average_pooling=False, model_options={}): #TODO? model_options
@@ -591,18 +585,11 @@ def load_controlnet_flux_instantx(sd, model_options={}):
def load_controlnet_qwen_instantx(sd, model_options={}):
model_config, operations, load_device, unet_dtype, manual_cast_dtype, offload_device = controlnet_config(sd, model_options=model_options)
control_latent_channels = sd.get("controlnet_x_embedder.weight").shape[1]
extra_condition_channels = 0
concat_mask = False
if control_latent_channels == 68: #inpaint controlnet
extra_condition_channels = control_latent_channels - 64
concat_mask = True
control_model = comfy.ldm.qwen_image.controlnet.QwenImageControlNetModel(extra_condition_channels=extra_condition_channels, operations=operations, device=offload_device, dtype=unet_dtype, **model_config.unet_config)
control_model = comfy.ldm.qwen_image.controlnet.QwenImageControlNetModel(operations=operations, device=offload_device, dtype=unet_dtype, **model_config.unet_config)
control_model = controlnet_load_state_dict(control_model, sd)
latent_format = comfy.latent_formats.Wan21()
extra_conds = []
control = ControlNet(control_model, compression_ratio=1, latent_format=latent_format, concat_mask=concat_mask, load_device=load_device, manual_cast_dtype=manual_cast_dtype, extra_conds=extra_conds)
control = ControlNet(control_model, compression_ratio=1, latent_format=latent_format, load_device=load_device, manual_cast_dtype=manual_cast_dtype, extra_conds=extra_conds)
return control
def convert_mistoline(sd):

144
comfy/float.py
View File

@@ -65,147 +65,3 @@ def stochastic_rounding(value, dtype, seed=0):
return output
return value.to(dtype=dtype)
# TODO: improve this?
def stochastic_float_to_fp4_e2m1(x, generator):
orig_shape = x.shape
sign = torch.signbit(x).to(torch.uint8)
exp = torch.floor(torch.log2(x.abs()) + 1.0).clamp(0, 3)
x += (torch.rand(x.size(), dtype=x.dtype, layout=x.layout, device=x.device, generator=generator) - 0.5) * (2 ** (exp - 2.0)) * 1.25
x = x.abs()
exp = torch.floor(torch.log2(x) + 1.1925).clamp(0, 3)
mantissa = torch.where(
exp > 0,
(x / (2.0 ** (exp - 1)) - 1.0) * 2.0,
(x * 2.0),
out=x
).round().to(torch.uint8)
del x
exp = exp.to(torch.uint8)
fp4 = (sign << 3) | (exp << 1) | mantissa
del sign, exp, mantissa
fp4_flat = fp4.view(-1)
packed = (fp4_flat[0::2] << 4) | fp4_flat[1::2]
return packed.reshape(list(orig_shape)[:-1] + [-1])
def to_blocked(input_matrix, flatten: bool = True) -> torch.Tensor:
"""
Rearrange a large matrix by breaking it into blocks and applying the rearrangement pattern.
See:
https://docs.nvidia.com/cuda/cublas/index.html#d-block-scaling-factors-layout
Args:
input_matrix: Input tensor of shape (H, W)
Returns:
Rearranged tensor of shape (32*ceil_div(H,128), 16*ceil_div(W,4))
"""
def ceil_div(a, b):
return (a + b - 1) // b
rows, cols = input_matrix.shape
n_row_blocks = ceil_div(rows, 128)
n_col_blocks = ceil_div(cols, 4)
# Calculate the padded shape
padded_rows = n_row_blocks * 128
padded_cols = n_col_blocks * 4
padded = input_matrix
if (rows, cols) != (padded_rows, padded_cols):
padded = torch.zeros(
(padded_rows, padded_cols),
device=input_matrix.device,
dtype=input_matrix.dtype,
)
padded[:rows, :cols] = input_matrix
# Rearrange the blocks
blocks = padded.view(n_row_blocks, 128, n_col_blocks, 4).permute(0, 2, 1, 3)
rearranged = blocks.reshape(-1, 4, 32, 4).transpose(1, 2).reshape(-1, 32, 16)
if flatten:
return rearranged.flatten()
return rearranged.reshape(padded_rows, padded_cols)
def stochastic_round_quantize_nvfp4_block(x, per_tensor_scale, generator):
F4_E2M1_MAX = 6.0
F8_E4M3_MAX = 448.0
orig_shape = x.shape
block_size = 16
x = x.reshape(orig_shape[0], -1, block_size)
scaled_block_scales_fp8 = torch.clamp(((torch.amax(torch.abs(x), dim=-1)) / F4_E2M1_MAX) / per_tensor_scale.to(x.dtype), max=F8_E4M3_MAX).to(torch.float8_e4m3fn)
x = x / (per_tensor_scale.to(x.dtype) * scaled_block_scales_fp8.to(x.dtype)).unsqueeze(-1)
x = x.view(orig_shape).nan_to_num()
data_lp = stochastic_float_to_fp4_e2m1(x, generator=generator)
return data_lp, scaled_block_scales_fp8
def stochastic_round_quantize_nvfp4(x, per_tensor_scale, pad_16x, seed=0):
def roundup(x: int, multiple: int) -> int:
"""Round up x to the nearest multiple."""
return ((x + multiple - 1) // multiple) * multiple
generator = torch.Generator(device=x.device)
generator.manual_seed(seed)
# Handle padding
if pad_16x:
rows, cols = x.shape
padded_rows = roundup(rows, 16)
padded_cols = roundup(cols, 16)
if padded_rows != rows or padded_cols != cols:
x = torch.nn.functional.pad(x, (0, padded_cols - cols, 0, padded_rows - rows))
x, blocked_scaled = stochastic_round_quantize_nvfp4_block(x, per_tensor_scale, generator)
return x, to_blocked(blocked_scaled, flatten=False)
def stochastic_round_quantize_nvfp4_by_block(x, per_tensor_scale, pad_16x, seed=0, block_size=4096 * 4096):
def roundup(x: int, multiple: int) -> int:
"""Round up x to the nearest multiple."""
return ((x + multiple - 1) // multiple) * multiple
orig_shape = x.shape
# Handle padding
if pad_16x:
rows, cols = x.shape
padded_rows = roundup(rows, 16)
padded_cols = roundup(cols, 16)
if padded_rows != rows or padded_cols != cols:
x = torch.nn.functional.pad(x, (0, padded_cols - cols, 0, padded_rows - rows))
# Note: We update orig_shape because the output tensor logic below assumes x.shape matches
# what we want to produce. If we pad here, we want the padded output.
orig_shape = x.shape
orig_shape = list(orig_shape)
output_fp4 = torch.empty(orig_shape[:-1] + [orig_shape[-1] // 2], dtype=torch.uint8, device=x.device)
output_block = torch.empty(orig_shape[:-1] + [orig_shape[-1] // 16], dtype=torch.float8_e4m3fn, device=x.device)
generator = torch.Generator(device=x.device)
generator.manual_seed(seed)
num_slices = max(1, (x.numel() / block_size))
slice_size = max(1, (round(x.shape[0] / num_slices)))
for i in range(0, x.shape[0], slice_size):
fp4, block = stochastic_round_quantize_nvfp4_block(x[i: i + slice_size], per_tensor_scale, generator=generator)
output_fp4[i:i + slice_size].copy_(fp4)
output_block[i:i + slice_size].copy_(block)
return output_fp4, to_blocked(output_block, flatten=False)

3
comfy/hooks.py
View File

@@ -527,8 +527,7 @@ class HookKeyframeGroup:
if self._current_keyframe.get_effective_guarantee_steps(max_sigma) > 0:
break
# if eval_c is outside the percent range, stop looking further
else:
break
else: break
# update steps current context is used
self._current_used_steps += 1
# update current timestep this was performed on

33
comfy/image_encoders/dino2.py
View File

@@ -31,20 +31,6 @@ class LayerScale(torch.nn.Module):
def forward(self, x):
return x * comfy.model_management.cast_to_device(self.lambda1, x.device, x.dtype)
class Dinov2MLP(torch.nn.Module):
def __init__(self, hidden_size: int, dtype, device, operations):
super().__init__()
mlp_ratio = 4
hidden_features = int(hidden_size * mlp_ratio)
self.fc1 = operations.Linear(hidden_size, hidden_features, bias = True, device=device, dtype=dtype)
self.fc2 = operations.Linear(hidden_features, hidden_size, bias = True, device=device, dtype=dtype)
def forward(self, hidden_state: torch.Tensor) -> torch.Tensor:
hidden_state = self.fc1(hidden_state)
hidden_state = torch.nn.functional.gelu(hidden_state)
hidden_state = self.fc2(hidden_state)
return hidden_state
class SwiGLUFFN(torch.nn.Module):
def __init__(self, dim, dtype, device, operations):
@@ -64,15 +50,12 @@ class SwiGLUFFN(torch.nn.Module):
class Dino2Block(torch.nn.Module):
def __init__(self, dim, num_heads, layer_norm_eps, dtype, device, operations, use_swiglu_ffn):
def __init__(self, dim, num_heads, layer_norm_eps, dtype, device, operations):
super().__init__()
self.attention = Dino2AttentionBlock(dim, num_heads, layer_norm_eps, dtype, device, operations)
self.layer_scale1 = LayerScale(dim, dtype, device, operations)
self.layer_scale2 = LayerScale(dim, dtype, device, operations)
if use_swiglu_ffn:
self.mlp = SwiGLUFFN(dim, dtype, device, operations)
else:
self.mlp = Dinov2MLP(dim, dtype, device, operations)
self.mlp = SwiGLUFFN(dim, dtype, device, operations)
self.norm1 = operations.LayerNorm(dim, eps=layer_norm_eps, dtype=dtype, device=device)
self.norm2 = operations.LayerNorm(dim, eps=layer_norm_eps, dtype=dtype, device=device)
@@ -83,10 +66,9 @@ class Dino2Block(torch.nn.Module):
class Dino2Encoder(torch.nn.Module):
def __init__(self, dim, num_heads, layer_norm_eps, num_layers, dtype, device, operations, use_swiglu_ffn):
def __init__(self, dim, num_heads, layer_norm_eps, num_layers, dtype, device, operations):
super().__init__()
self.layer = torch.nn.ModuleList([Dino2Block(dim, num_heads, layer_norm_eps, dtype, device, operations, use_swiglu_ffn = use_swiglu_ffn)
for _ in range(num_layers)])
self.layer = torch.nn.ModuleList([Dino2Block(dim, num_heads, layer_norm_eps, dtype, device, operations) for _ in range(num_layers)])
def forward(self, x, intermediate_output=None):
optimized_attention = optimized_attention_for_device(x.device, False, small_input=True)
@@ -96,8 +78,8 @@ class Dino2Encoder(torch.nn.Module):
intermediate_output = len(self.layer) + intermediate_output
intermediate = None
for i, layer in enumerate(self.layer):
x = layer(x, optimized_attention)
for i, l in enumerate(self.layer):
x = l(x, optimized_attention)
if i == intermediate_output:
intermediate = x.clone()
return x, intermediate
@@ -146,10 +128,9 @@ class Dinov2Model(torch.nn.Module):
dim = config_dict["hidden_size"]
heads = config_dict["num_attention_heads"]
layer_norm_eps = config_dict["layer_norm_eps"]
use_swiglu_ffn = config_dict["use_swiglu_ffn"]
self.embeddings = Dino2Embeddings(dim, dtype, device, operations)
self.encoder = Dino2Encoder(dim, heads, layer_norm_eps, num_layers, dtype, device, operations, use_swiglu_ffn = use_swiglu_ffn)
self.encoder = Dino2Encoder(dim, heads, layer_norm_eps, num_layers, dtype, device, operations)
self.layernorm = operations.LayerNorm(dim, eps=layer_norm_eps, dtype=dtype, device=device)
def forward(self, pixel_values, attention_mask=None, intermediate_output=None):

22
comfy/image_encoders/dino2_large.json
View File

@@ -1,22 +0,0 @@
{
"hidden_size": 1024,
"use_mask_token": true,
"patch_size": 14,
"image_size": 518,
"num_channels": 3,
"num_attention_heads": 16,
"initializer_range": 0.02,
"attention_probs_dropout_prob": 0.0,
"hidden_dropout_prob": 0.0,
"hidden_act": "gelu",
"mlp_ratio": 4,
"model_type": "dinov2",
"num_hidden_layers": 24,
"layer_norm_eps": 1e-6,
"qkv_bias": true,
"use_swiglu_ffn": false,
"layerscale_value": 1.0,
"drop_path_rate": 0.0,
"image_mean": [0.485, 0.456, 0.406],
"image_std": [0.229, 0.224, 0.225]
}

199
comfy/k_diffusion/sampling.py
View File

@@ -74,9 +74,6 @@ def get_ancestral_step(sigma_from, sigma_to, eta=1.):
def default_noise_sampler(x, seed=None):
if seed is not None:
if x.device == torch.device("cpu"):
seed += 1
generator = torch.Generator(device=x.device)
generator.manual_seed(seed)
else:
@@ -89,24 +86,24 @@ class BatchedBrownianTree:
"""A wrapper around torchsde.BrownianTree that enables batches of entropy."""
def __init__(self, x, t0, t1, seed=None, **kwargs):
self.cpu_tree = kwargs.pop("cpu", True)
self.cpu_tree = True
if "cpu" in kwargs:
self.cpu_tree = kwargs.pop("cpu")
t0, t1, self.sign = self.sort(t0, t1)
w0 = kwargs.pop('w0', None)
if w0 is None:
w0 = torch.zeros_like(x)
self.batched = False
w0 = kwargs.get('w0', torch.zeros_like(x))
if seed is None:
seed = (torch.randint(0, 2 ** 63 - 1, ()).item(),)
elif isinstance(seed, (tuple, list)):
if len(seed) != x.shape[0]:
raise ValueError("Passing a list or tuple of seeds to BatchedBrownianTree requires a length matching the batch size.")
self.batched = True
seed = torch.randint(0, 2 ** 63 - 1, []).item()
self.batched = True
try:
assert len(seed) == x.shape[0]
w0 = w0[0]
else:
seed = (seed,)
except TypeError:
seed = [seed]
self.batched = False
if self.cpu_tree:
t0, w0, t1 = t0.detach().cpu(), w0.detach().cpu(), t1.detach().cpu()
self.trees = tuple(torchsde.BrownianTree(t0, w0, t1, entropy=s, **kwargs) for s in seed)
self.trees = [torchsde.BrownianTree(t0.cpu(), w0.cpu(), t1.cpu(), entropy=s, **kwargs) for s in seed]
else:
self.trees = [torchsde.BrownianTree(t0, w0, t1, entropy=s, **kwargs) for s in seed]
@staticmethod
def sort(a, b):
@@ -114,10 +111,11 @@ class BatchedBrownianTree:
def __call__(self, t0, t1):
t0, t1, sign = self.sort(t0, t1)
device, dtype = t0.device, t0.dtype
if self.cpu_tree:
t0, t1 = t0.detach().cpu().float(), t1.detach().cpu().float()
w = torch.stack([tree(t0, t1) for tree in self.trees]).to(device=device, dtype=dtype) * (self.sign * sign)
w = torch.stack([tree(t0.cpu().float(), t1.cpu().float()).to(t0.dtype).to(t0.device) for tree in self.trees]) * (self.sign * sign)
else:
w = torch.stack([tree(t0, t1) for tree in self.trees]) * (self.sign * sign)
return w if self.batched else w[0]
@@ -173,16 +171,6 @@ def offset_first_sigma_for_snr(sigmas, model_sampling, percent_offset=1e-4):
return sigmas
def ei_h_phi_1(h: torch.Tensor) -> torch.Tensor:
"""Compute the result of h*phi_1(h) in exponential integrator methods."""
return torch.expm1(h)
def ei_h_phi_2(h: torch.Tensor) -> torch.Tensor:
"""Compute the result of h*phi_2(h) in exponential integrator methods."""
return (torch.expm1(h) - h) / h
@torch.no_grad()
def sample_euler(model, x, sigmas, extra_args=None, callback=None, disable=None, s_churn=0., s_tmin=0., s_tmax=float('inf'), s_noise=1.):
"""Implements Algorithm 2 (Euler steps) from Karras et al. (2022)."""
@@ -1560,17 +1548,15 @@ def sample_er_sde(model, x, sigmas, extra_args=None, callback=None, disable=None
@torch.no_grad()
def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r=0.5, solver_type="phi_1"):
def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r=0.5):
"""SEEDS-2 - Stochastic Explicit Exponential Derivative-free Solvers (VP Data Prediction) stage 2.
arXiv: https://arxiv.org/abs/2305.14267 (NeurIPS 2023)
arXiv: https://arxiv.org/abs/2305.14267
"""
if solver_type not in {"phi_1", "phi_2"}:
raise ValueError("solver_type must be 'phi_1' or 'phi_2'")
extra_args = {} if extra_args is None else extra_args
seed = extra_args.get("seed", None)
noise_sampler = default_noise_sampler(x, seed=seed) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
inject_noise = eta > 0 and s_noise > 0
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
@@ -1578,70 +1564,55 @@ def sample_seeds_2(model, x, sigmas, extra_args=None, callback=None, disable=Non
lambda_fn = partial(sigma_to_half_log_snr, model_sampling=model_sampling)
sigmas = offset_first_sigma_for_snr(sigmas, model_sampling)
fac = 1 / (2 * r)
for i in trange(len(sigmas) - 1, disable=disable):
denoised = model(x, sigmas[i] * s_in, **extra_args)
if callback is not None:
callback({'x': x, 'i': i, 'sigma': sigmas[i], 'sigma_hat': sigmas[i], 'denoised': denoised})
if sigmas[i + 1] == 0:
x = denoised
continue
else:
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
lambda_s_1 = lambda_s + r * h
fac = 1 / (2 * r)
sigma_s_1 = sigma_fn(lambda_s_1)
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
lambda_s_1 = torch.lerp(lambda_s, lambda_t, r)
sigma_s_1 = sigma_fn(lambda_s_1)
# alpha_t = sigma_t * exp(log(alpha_t / sigma_t)) = sigma_t * exp(lambda_t)
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
coeff_1, coeff_2 = (-r * h_eta).expm1(), (-h_eta).expm1()
if inject_noise:
# 0 < r < 1
noise_coeff_1 = (-2 * r * h * eta).expm1().neg().sqrt()
noise_coeff_2 = (-r * h * eta).exp() * (-2 * (1 - r) * h * eta).expm1().neg().sqrt()
noise_1, noise_2 = noise_sampler(sigmas[i], sigma_s_1), noise_sampler(sigma_s_1, sigmas[i + 1])
# Step 1
x_2 = sigma_s_1 / sigmas[i] * (-r * h * eta).exp() * x - alpha_s_1 * ei_h_phi_1(-r * h_eta) * denoised
if inject_noise:
sde_noise = (-2 * r * h * eta).expm1().neg().sqrt() * noise_sampler(sigmas[i], sigma_s_1)
x_2 = x_2 + sde_noise * sigma_s_1 * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 1
x_2 = sigma_s_1 / sigmas[i] * (-r * h * eta).exp() * x - alpha_s_1 * coeff_1 * denoised
if inject_noise:
x_2 = x_2 + sigma_s_1 * (noise_coeff_1 * noise_1) * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 2
if solver_type == "phi_1":
denoised_d = torch.lerp(denoised, denoised_2, fac)
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * ei_h_phi_1(-h_eta) * denoised_d
elif solver_type == "phi_2":
b2 = ei_h_phi_2(-h_eta) / r
b1 = ei_h_phi_1(-h_eta) - b2
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * (b1 * denoised + b2 * denoised_2)
if inject_noise:
segment_factor = (r - 1) * h * eta
sde_noise = sde_noise * segment_factor.exp()
sde_noise = sde_noise + segment_factor.mul(2).expm1().neg().sqrt() * noise_sampler(sigma_s_1, sigmas[i + 1])
x = x + sde_noise * sigmas[i + 1] * s_noise
# Step 2
denoised_d = (1 - fac) * denoised + fac * denoised_2
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * coeff_2 * denoised_d
if inject_noise:
x = x + sigmas[i + 1] * (noise_coeff_2 * noise_1 + noise_coeff_1 * noise_2) * s_noise
return x
@torch.no_grad()
def sample_exp_heun_2_x0(model, x, sigmas, extra_args=None, callback=None, disable=None, solver_type="phi_2"):
"""Deterministic exponential Heun second order method in data prediction (x0) and logSNR time."""
return sample_seeds_2(model, x, sigmas, extra_args=extra_args, callback=callback, disable=disable, eta=0.0, s_noise=0.0, noise_sampler=None, r=1.0, solver_type=solver_type)
@torch.no_grad()
def sample_exp_heun_2_x0_sde(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, solver_type="phi_2"):
"""Stochastic exponential Heun second order method in data prediction (x0) and logSNR time."""
return sample_seeds_2(model, x, sigmas, extra_args=extra_args, callback=callback, disable=disable, eta=eta, s_noise=s_noise, noise_sampler=noise_sampler, r=1.0, solver_type=solver_type)
@torch.no_grad()
def sample_seeds_3(model, x, sigmas, extra_args=None, callback=None, disable=None, eta=1., s_noise=1., noise_sampler=None, r_1=1./3, r_2=2./3):
"""SEEDS-3 - Stochastic Explicit Exponential Derivative-free Solvers (VP Data Prediction) stage 3.
arXiv: https://arxiv.org/abs/2305.14267 (NeurIPS 2023)
arXiv: https://arxiv.org/abs/2305.14267
"""
extra_args = {} if extra_args is None else extra_args
seed = extra_args.get("seed", None)
noise_sampler = default_noise_sampler(x, seed=seed) if noise_sampler is None else noise_sampler
s_in = x.new_ones([x.shape[0]])
inject_noise = eta > 0 and s_noise > 0
model_sampling = model.inner_model.model_patcher.get_model_object('model_sampling')
@@ -1653,49 +1624,45 @@ def sample_seeds_3(model, x, sigmas, extra_args=None, callback=None, disable=Non
denoised = model(x, sigmas[i] * s_in, **extra_args)
if callback is not None:
callback({'x': x, 'i': i, 'sigma': sigmas[i], 'sigma_hat': sigmas[i], 'denoised': denoised})
if sigmas[i + 1] == 0:
x = denoised
continue
else:
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
lambda_s_1 = lambda_s + r_1 * h
lambda_s_2 = lambda_s + r_2 * h
sigma_s_1, sigma_s_2 = sigma_fn(lambda_s_1), sigma_fn(lambda_s_2)
lambda_s, lambda_t = lambda_fn(sigmas[i]), lambda_fn(sigmas[i + 1])
h = lambda_t - lambda_s
h_eta = h * (eta + 1)
lambda_s_1 = torch.lerp(lambda_s, lambda_t, r_1)
lambda_s_2 = torch.lerp(lambda_s, lambda_t, r_2)
sigma_s_1, sigma_s_2 = sigma_fn(lambda_s_1), sigma_fn(lambda_s_2)
# alpha_t = sigma_t * exp(log(alpha_t / sigma_t)) = sigma_t * exp(lambda_t)
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_s_2 = sigma_s_2 * lambda_s_2.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
alpha_s_1 = sigma_s_1 * lambda_s_1.exp()
alpha_s_2 = sigma_s_2 * lambda_s_2.exp()
alpha_t = sigmas[i + 1] * lambda_t.exp()
coeff_1, coeff_2, coeff_3 = (-r_1 * h_eta).expm1(), (-r_2 * h_eta).expm1(), (-h_eta).expm1()
if inject_noise:
# 0 < r_1 < r_2 < 1
noise_coeff_1 = (-2 * r_1 * h * eta).expm1().neg().sqrt()
noise_coeff_2 = (-r_1 * h * eta).exp() * (-2 * (r_2 - r_1) * h * eta).expm1().neg().sqrt()
noise_coeff_3 = (-r_2 * h * eta).exp() * (-2 * (1 - r_2) * h * eta).expm1().neg().sqrt()
noise_1, noise_2, noise_3 = noise_sampler(sigmas[i], sigma_s_1), noise_sampler(sigma_s_1, sigma_s_2), noise_sampler(sigma_s_2, sigmas[i + 1])
# Step 1
x_2 = sigma_s_1 / sigmas[i] * (-r_1 * h * eta).exp() * x - alpha_s_1 * ei_h_phi_1(-r_1 * h_eta) * denoised
if inject_noise:
sde_noise = (-2 * r_1 * h * eta).expm1().neg().sqrt() * noise_sampler(sigmas[i], sigma_s_1)
x_2 = x_2 + sde_noise * sigma_s_1 * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 1
x_2 = sigma_s_1 / sigmas[i] * (-r_1 * h * eta).exp() * x - alpha_s_1 * coeff_1 * denoised
if inject_noise:
x_2 = x_2 + sigma_s_1 * (noise_coeff_1 * noise_1) * s_noise
denoised_2 = model(x_2, sigma_s_1 * s_in, **extra_args)
# Step 2
a3_2 = r_2 / r_1 * ei_h_phi_2(-r_2 * h_eta)
a3_1 = ei_h_phi_1(-r_2 * h_eta) - a3_2
x_3 = sigma_s_2 / sigmas[i] * (-r_2 * h * eta).exp() * x - alpha_s_2 * (a3_1 * denoised + a3_2 * denoised_2)
if inject_noise:
segment_factor = (r_1 - r_2) * h * eta
sde_noise = sde_noise * segment_factor.exp()
sde_noise = sde_noise + segment_factor.mul(2).expm1().neg().sqrt() * noise_sampler(sigma_s_1, sigma_s_2)
x_3 = x_3 + sde_noise * sigma_s_2 * s_noise
denoised_3 = model(x_3, sigma_s_2 * s_in, **extra_args)
# Step 2
x_3 = sigma_s_2 / sigmas[i] * (-r_2 * h * eta).exp() * x - alpha_s_2 * coeff_2 * denoised + (r_2 / r_1) * alpha_s_2 * (coeff_2 / (r_2 * h_eta) + 1) * (denoised_2 - denoised)
if inject_noise:
x_3 = x_3 + sigma_s_2 * (noise_coeff_2 * noise_1 + noise_coeff_1 * noise_2) * s_noise
denoised_3 = model(x_3, sigma_s_2 * s_in, **extra_args)
# Step 3
b3 = ei_h_phi_2(-h_eta) / r_2
b1 = ei_h_phi_1(-h_eta) - b3
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * (b1 * denoised + b3 * denoised_3)
if inject_noise:
segment_factor = (r_2 - 1) * h * eta
sde_noise = sde_noise * segment_factor.exp()
sde_noise = sde_noise + segment_factor.mul(2).expm1().neg().sqrt() * noise_sampler(sigma_s_2, sigmas[i + 1])
x = x + sde_noise * sigmas[i + 1] * s_noise
# Step 3
x = sigmas[i + 1] / sigmas[i] * (-h * eta).exp() * x - alpha_t * coeff_3 * denoised + (1. / r_2) * alpha_t * (coeff_3 / h_eta + 1) * (denoised_3 - denoised)
if inject_noise:
x = x + sigmas[i + 1] * (noise_coeff_3 * noise_1 + noise_coeff_2 * noise_2 + noise_coeff_1 * noise_3) * s_noise
return x
@@ -1779,7 +1746,7 @@ def sample_sa_solver(model, x, sigmas, extra_args=None, callback=None, disable=F
# Predictor
if sigmas[i + 1] == 0:
# Denoising step
x_pred = denoised
x = denoised
else:
tau_t = tau_func(sigmas[i + 1])
curr_lambdas = lambdas[i - predictor_order_used + 1:i + 1]
@@ -1800,7 +1767,7 @@ def sample_sa_solver(model, x, sigmas, extra_args=None, callback=None, disable=F
if tau_t > 0 and s_noise > 0:
noise = noise_sampler(sigmas[i], sigmas[i + 1]) * sigmas[i + 1] * (-2 * tau_t ** 2 * h).expm1().neg().sqrt() * s_noise
x_pred = x_pred + noise
return x_pred
return x
@torch.no_grad()

224
comfy/latent_formats.py
View File

@@ -6,9 +6,7 @@ class LatentFormat:
latent_dimensions = 2
latent_rgb_factors = None
latent_rgb_factors_bias = None
latent_rgb_factors_reshape = None
taesd_decoder_name = None
spacial_downscale_ratio = 8
def process_in(self, latent):
return latent * self.scale_factor
@@ -180,55 +178,6 @@ class Flux(SD3):
def process_out(self, latent):
return (latent / self.scale_factor) + self.shift_factor
class Flux2(LatentFormat):
latent_channels = 128
spacial_downscale_ratio = 16
def __init__(self):
self.latent_rgb_factors =[
[0.0058, 0.0113, 0.0073],
[0.0495, 0.0443, 0.0836],
[-0.0099, 0.0096, 0.0644],
[0.2144, 0.3009, 0.3652],
[0.0166, -0.0039, -0.0054],
[0.0157, 0.0103, -0.0160],
[-0.0398, 0.0902, -0.0235],
[-0.0052, 0.0095, 0.0109],
[-0.3527, -0.2712, -0.1666],
[-0.0301, -0.0356, -0.0180],
[-0.0107, 0.0078, 0.0013],
[0.0746, 0.0090, -0.0941],
[0.0156, 0.0169, 0.0070],
[-0.0034, -0.0040, -0.0114],
[0.0032, 0.0181, 0.0080],
[-0.0939, -0.0008, 0.0186],
[0.0018, 0.0043, 0.0104],
[0.0284, 0.0056, -0.0127],
[-0.0024, -0.0022, -0.0030],
[0.1207, -0.0026, 0.0065],
[0.0128, 0.0101, 0.0142],
[0.0137, -0.0072, -0.0007],
[0.0095, 0.0092, -0.0059],
[0.0000, -0.0077, -0.0049],
[-0.0465, -0.0204, -0.0312],
[0.0095, 0.0012, -0.0066],
[0.0290, -0.0034, 0.0025],
[0.0220, 0.0169, -0.0048],
[-0.0332, -0.0457, -0.0468],
[-0.0085, 0.0389, 0.0609],
[-0.0076, 0.0003, -0.0043],
[-0.0111, -0.0460, -0.0614],
]
self.latent_rgb_factors_bias = [-0.0329, -0.0718, -0.0851]
self.latent_rgb_factors_reshape = lambda t: t.reshape(t.shape[0], 32, 2, 2, t.shape[-2], t.shape[-1]).permute(0, 1, 4, 2, 5, 3).reshape(t.shape[0], 32, t.shape[-2] * 2, t.shape[-1] * 2)
def process_in(self, latent):
return latent
def process_out(self, latent):
return latent
class Mochi(LatentFormat):
latent_channels = 12
latent_dimensions = 3
@@ -409,11 +358,6 @@ class LTXV(LatentFormat):
self.latent_rgb_factors_bias = [-0.0571, -0.1657, -0.2512]
class LTXAV(LTXV):
def __init__(self):
self.latent_rgb_factors = None
self.latent_rgb_factors_bias = None
class HunyuanVideo(LatentFormat):
latent_channels = 16
latent_dimensions = 3
@@ -438,7 +382,6 @@ class HunyuanVideo(LatentFormat):
]
latent_rgb_factors_bias = [ 0.0259, -0.0192, -0.0761]
taesd_decoder_name = "taehv"
class Cosmos1CV8x8x8(LatentFormat):
latent_channels = 16
@@ -502,7 +445,7 @@ class Wan21(LatentFormat):
]).view(1, self.latent_channels, 1, 1, 1)
self.taesd_decoder_name = "lighttaew2_1"
self.taesd_decoder_name = None #TODO
def process_in(self, latent):
latents_mean = self.latents_mean.to(latent.device, latent.dtype)
@@ -573,7 +516,6 @@ class Wan22(Wan21):
def __init__(self):
self.scale_factor = 1.0
self.taesd_decoder_name = "lighttaew2_2"
self.latents_mean = torch.tensor([
-0.2289, -0.0052, -0.1323, -0.2339, -0.2799, 0.0174, 0.1838, 0.1557,
-0.1382, 0.0542, 0.2813, 0.0891, 0.1570, -0.0098, 0.0375, -0.1825,
@@ -591,157 +533,11 @@ class Wan22(Wan21):
0.3971, 1.0600, 0.3943, 0.5537, 0.5444, 0.4089, 0.7468, 0.7744
]).view(1, self.latent_channels, 1, 1, 1)
class HunyuanImage21(LatentFormat):
latent_channels = 64
latent_dimensions = 2
spacial_downscale_ratio = 32
scale_factor = 0.75289
latent_rgb_factors = [
[-0.0154, -0.0397, -0.0521],
[ 0.0005, 0.0093, 0.0006],
[-0.0805, -0.0773, -0.0586],
[-0.0494, -0.0487, -0.0498],
[-0.0212, -0.0076, -0.0261],
[-0.0179, -0.0417, -0.0505],
[ 0.0158, 0.0310, 0.0239],
[ 0.0409, 0.0516, 0.0201],
[ 0.0350, 0.0553, 0.0036],
[-0.0447, -0.0327, -0.0479],
[-0.0038, -0.0221, -0.0365],
[-0.0423, -0.0718, -0.0654],
[ 0.0039, 0.0368, 0.0104],
[ 0.0655, 0.0217, 0.0122],
[ 0.0490, 0.1638, 0.2053],
[ 0.0932, 0.0829, 0.0650],
[-0.0186, -0.0209, -0.0135],
[-0.0080, -0.0076, -0.0148],
[-0.0284, -0.0201, 0.0011],
[-0.0642, -0.0294, -0.0777],
[-0.0035, 0.0076, -0.0140],
[ 0.0519, 0.0731, 0.0887],
[-0.0102, 0.0095, 0.0704],
[ 0.0068, 0.0218, -0.0023],
[-0.0726, -0.0486, -0.0519],
[ 0.0260, 0.0295, 0.0263],
[ 0.0250, 0.0333, 0.0341],
[ 0.0168, -0.0120, -0.0174],
[ 0.0226, 0.1037, 0.0114],
[ 0.2577, 0.1906, 0.1604],
[-0.0646, -0.0137, -0.0018],
[-0.0112, 0.0309, 0.0358],
[-0.0347, 0.0146, -0.0481],
[ 0.0234, 0.0179, 0.0201],
[ 0.0157, 0.0313, 0.0225],
[ 0.0423, 0.0675, 0.0524],
[-0.0031, 0.0027, -0.0255],
[ 0.0447, 0.0555, 0.0330],
[-0.0152, 0.0103, 0.0299],
[-0.0755, -0.0489, -0.0635],
[ 0.0853, 0.0788, 0.1017],
[-0.0272, -0.0294, -0.0471],
[ 0.0440, 0.0400, -0.0137],
[ 0.0335, 0.0317, -0.0036],
[-0.0344, -0.0621, -0.0984],
[-0.0127, -0.0630, -0.0620],
[-0.0648, 0.0360, 0.0924],
[-0.0781, -0.0801, -0.0409],
[ 0.0363, 0.0613, 0.0499],
[ 0.0238, 0.0034, 0.0041],
[-0.0135, 0.0258, 0.0310],
[ 0.0614, 0.1086, 0.0589],
[ 0.0428, 0.0350, 0.0205],
[ 0.0153, 0.0173, -0.0018],
[-0.0288, -0.0455, -0.0091],
[ 0.0344, 0.0109, -0.0157],
[-0.0205, -0.0247, -0.0187],
[ 0.0487, 0.0126, 0.0064],
[-0.0220, -0.0013, 0.0074],
[-0.0203, -0.0094, -0.0048],
[-0.0719, 0.0429, -0.0442],
[ 0.1042, 0.0497, 0.0356],
[-0.0659, -0.0578, -0.0280],
[-0.0060, -0.0322, -0.0234]]
latent_rgb_factors_bias = [0.0007, -0.0256, -0.0206]
class HunyuanImage21Refiner(LatentFormat):
latent_channels = 64
latent_dimensions = 3
scale_factor = 1.03682
def process_in(self, latent):
out = latent * self.scale_factor
out = torch.cat((out[:, :, :1], out), dim=2)
out = out.permute(0, 2, 1, 3, 4)
b, f_times_2, c, h, w = out.shape
out = out.reshape(b, f_times_2 // 2, 2 * c, h, w)
out = out.permute(0, 2, 1, 3, 4).contiguous()
return out
def process_out(self, latent):
z = latent / self.scale_factor
z = z.permute(0, 2, 1, 3, 4)
b, f, c, h, w = z.shape
z = z.reshape(b, f, 2, c // 2, h, w)
z = z.permute(0, 1, 2, 3, 4, 5).reshape(b, f * 2, c // 2, h, w)
z = z.permute(0, 2, 1, 3, 4)
z = z[:, :, 1:]
return z
class HunyuanVideo15(LatentFormat):
latent_rgb_factors = [
[ 0.0568, -0.0521, -0.0131],
[ 0.0014, 0.0735, 0.0326],
[ 0.0186, 0.0531, -0.0138],
[-0.0031, 0.0051, 0.0288],
[ 0.0110, 0.0556, 0.0432],
[-0.0041, -0.0023, -0.0485],
[ 0.0530, 0.0413, 0.0253],
[ 0.0283, 0.0251, 0.0339],
[ 0.0277, -0.0372, -0.0093],
[ 0.0393, 0.0944, 0.1131],
[ 0.0020, 0.0251, 0.0037],
[-0.0017, 0.0012, 0.0234],
[ 0.0468, 0.0436, 0.0203],
[ 0.0354, 0.0439, -0.0233],
[ 0.0090, 0.0123, 0.0346],
[ 0.0382, 0.0029, 0.0217],
[ 0.0261, -0.0300, 0.0030],
[-0.0088, -0.0220, -0.0283],
[-0.0272, -0.0121, -0.0363],
[-0.0664, -0.0622, 0.0144],
[ 0.0414, 0.0479, 0.0529],
[ 0.0355, 0.0612, -0.0247],
[ 0.0147, 0.0264, 0.0174],
[ 0.0438, 0.0038, 0.0542],
[ 0.0431, -0.0573, -0.0033],
[-0.0162, -0.0211, -0.0406],
[-0.0487, -0.0295, -0.0393],
[ 0.0005, -0.0109, 0.0253],
[ 0.0296, 0.0591, 0.0353],
[ 0.0119, 0.0181, -0.0306],
[-0.0085, -0.0362, 0.0229],
[ 0.0005, -0.0106, 0.0242]
]
latent_rgb_factors_bias = [ 0.0456, -0.0202, -0.0644]
latent_channels = 32
latent_dimensions = 3
spacial_downscale_ratio = 16
scale_factor = 1.03682
taesd_decoder_name = "lighttaehy1_5"
class Hunyuan3Dv2(LatentFormat):
latent_channels = 64
latent_dimensions = 1
scale_factor = 0.9990943042622529
class Hunyuan3Dv2_1(LatentFormat):
scale_factor = 1.0039506158752403
latent_channels = 64
latent_dimensions = 1
class Hunyuan3Dv2mini(LatentFormat):
latent_channels = 64
latent_dimensions = 1
@@ -750,21 +546,3 @@ class Hunyuan3Dv2mini(LatentFormat):
class ACEAudio(LatentFormat):
latent_channels = 8
latent_dimensions = 2
class ChromaRadiance(LatentFormat):
latent_channels = 3
spacial_downscale_ratio = 1
def __init__(self):
self.latent_rgb_factors = [
# R G B
[ 1.0, 0.0, 0.0 ],
[ 0.0, 1.0, 0.0 ],
[ 0.0, 0.0, 1.0 ]
]
def process_in(self, latent):
return latent
def process_out(self, latent):
return latent

11
comfy/ldm/ace/vae/music_dcae_pipeline.py
View File

@@ -23,6 +23,8 @@ class MusicDCAE(torch.nn.Module):
else:
self.source_sample_rate = source_sample_rate
# self.resampler = torchaudio.transforms.Resample(source_sample_rate, 44100)
self.transform = transforms.Compose([
transforms.Normalize(0.5, 0.5),
])
@@ -35,6 +37,10 @@ class MusicDCAE(torch.nn.Module):
self.scale_factor = 0.1786
self.shift_factor = -1.9091
def load_audio(self, audio_path):
audio, sr = torchaudio.load(audio_path)
return audio, sr
def forward_mel(self, audios):
mels = []
for i in range(len(audios)):
@@ -67,8 +73,10 @@ class MusicDCAE(torch.nn.Module):
latent = self.dcae.encoder(mel.unsqueeze(0))
latents.append(latent)
latents = torch.cat(latents, dim=0)
# latent_lengths = (audio_lengths / sr * 44100 / 512 / self.time_dimention_multiple).long()
latents = (latents - self.shift_factor) * self.scale_factor
return latents
# return latents, latent_lengths
@torch.no_grad()
def decode(self, latents, audio_lengths=None, sr=None):
@@ -83,7 +91,9 @@ class MusicDCAE(torch.nn.Module):
wav = self.vocoder.decode(mels[0]).squeeze(1)
if sr is not None:
# resampler = torchaudio.transforms.Resample(44100, sr).to(latents.device).to(latents.dtype)
wav = torchaudio.functional.resample(wav, 44100, sr)
# wav = resampler(wav)
else:
sr = 44100
pred_wavs.append(wav)
@@ -91,6 +101,7 @@ class MusicDCAE(torch.nn.Module):
if audio_lengths is not None:
pred_wavs = [wav[:, :length].cpu() for wav, length in zip(pred_wavs, audio_lengths)]
return torch.stack(pred_wavs)
# return sr, pred_wavs
def forward(self, audios, audio_lengths=None, sr=None):
latents, latent_lengths = self.encode(audios=audios, audio_lengths=audio_lengths, sr=sr)

202
comfy/ldm/anima/model.py
View File

@@ -1,202 +0,0 @@
from comfy.ldm.cosmos.predict2 import MiniTrainDIT
import torch
from torch import nn
import torch.nn.functional as F
def rotate_half(x):
x1 = x[..., : x.shape[-1] // 2]
x2 = x[..., x.shape[-1] // 2 :]
return torch.cat((-x2, x1), dim=-1)
def apply_rotary_pos_emb(x, cos, sin, unsqueeze_dim=1):
cos = cos.unsqueeze(unsqueeze_dim)
sin = sin.unsqueeze(unsqueeze_dim)
x_embed = (x * cos) + (rotate_half(x) * sin)
return x_embed
class RotaryEmbedding(nn.Module):
def __init__(self, head_dim):
super().__init__()
self.rope_theta = 10000
inv_freq = 1.0 / (self.rope_theta ** (torch.arange(0, head_dim, 2, dtype=torch.int64).to(dtype=torch.float) / head_dim))
self.register_buffer("inv_freq", inv_freq, persistent=False)
@torch.no_grad()
def forward(self, x, position_ids):
inv_freq_expanded = self.inv_freq[None, :, None].float().expand(position_ids.shape[0], -1, 1).to(x.device)
position_ids_expanded = position_ids[:, None, :].float()
device_type = x.device.type if isinstance(x.device.type, str) and x.device.type != "mps" else "cpu"
with torch.autocast(device_type=device_type, enabled=False): # Force float32
freqs = (inv_freq_expanded.float() @ position_ids_expanded.float()).transpose(1, 2)
emb = torch.cat((freqs, freqs), dim=-1)
cos = emb.cos()
sin = emb.sin()
return cos.to(dtype=x.dtype), sin.to(dtype=x.dtype)
class Attention(nn.Module):
def __init__(self, query_dim, context_dim, n_heads, head_dim, device=None, dtype=None, operations=None):
super().__init__()
inner_dim = head_dim * n_heads
self.n_heads = n_heads
self.head_dim = head_dim
self.query_dim = query_dim
self.context_dim = context_dim
self.q_proj = operations.Linear(query_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.q_norm = operations.RMSNorm(self.head_dim, eps=1e-6, device=device, dtype=dtype)
self.k_proj = operations.Linear(context_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.k_norm = operations.RMSNorm(self.head_dim, eps=1e-6, device=device, dtype=dtype)
self.v_proj = operations.Linear(context_dim, inner_dim, bias=False, device=device, dtype=dtype)
self.o_proj = operations.Linear(inner_dim, query_dim, bias=False, device=device, dtype=dtype)
def forward(self, x, mask=None, context=None, position_embeddings=None, position_embeddings_context=None):
context = x if context is None else context
input_shape = x.shape[:-1]
q_shape = (*input_shape, self.n_heads, self.head_dim)
context_shape = context.shape[:-1]
kv_shape = (*context_shape, self.n_heads, self.head_dim)
query_states = self.q_norm(self.q_proj(x).view(q_shape)).transpose(1, 2)
key_states = self.k_norm(self.k_proj(context).view(kv_shape)).transpose(1, 2)
value_states = self.v_proj(context).view(kv_shape).transpose(1, 2)
if position_embeddings is not None:
assert position_embeddings_context is not None
cos, sin = position_embeddings
query_states = apply_rotary_pos_emb(query_states, cos, sin)
cos, sin = position_embeddings_context
key_states = apply_rotary_pos_emb(key_states, cos, sin)
attn_output = F.scaled_dot_product_attention(query_states, key_states, value_states, attn_mask=mask)
attn_output = attn_output.transpose(1, 2).reshape(*input_shape, -1).contiguous()
attn_output = self.o_proj(attn_output)
return attn_output
def init_weights(self):
torch.nn.init.zeros_(self.o_proj.weight)
class TransformerBlock(nn.Module):
def __init__(self, source_dim, model_dim, num_heads=16, mlp_ratio=4.0, use_self_attn=False, layer_norm=False, device=None, dtype=None, operations=None):
super().__init__()
self.use_self_attn = use_self_attn
if self.use_self_attn:
self.norm_self_attn = operations.LayerNorm(model_dim, device=device, dtype=dtype) if layer_norm else operations.RMSNorm(model_dim, eps=1e-6, device=device, dtype=dtype)
self.self_attn = Attention(
query_dim=model_dim,
context_dim=model_dim,
n_heads=num_heads,
head_dim=model_dim//num_heads,
device=device,
dtype=dtype,
operations=operations,
)
self.norm_cross_attn = operations.LayerNorm(model_dim, device=device, dtype=dtype) if layer_norm else operations.RMSNorm(model_dim, eps=1e-6, device=device, dtype=dtype)
self.cross_attn = Attention(
query_dim=model_dim,
context_dim=source_dim,
n_heads=num_heads,
head_dim=model_dim//num_heads,
device=device,
dtype=dtype,
operations=operations,
)
self.norm_mlp = operations.LayerNorm(model_dim, device=device, dtype=dtype) if layer_norm else operations.RMSNorm(model_dim, eps=1e-6, device=device, dtype=dtype)
self.mlp = nn.Sequential(
operations.Linear(model_dim, int(model_dim * mlp_ratio), device=device, dtype=dtype),
nn.GELU(),
operations.Linear(int(model_dim * mlp_ratio), model_dim, device=device, dtype=dtype)
)
def forward(self, x, context, target_attention_mask=None, source_attention_mask=None, position_embeddings=None, position_embeddings_context=None):
if self.use_self_attn:
normed = self.norm_self_attn(x)
attn_out = self.self_attn(normed, mask=target_attention_mask, position_embeddings=position_embeddings, position_embeddings_context=position_embeddings)
x = x + attn_out
normed = self.norm_cross_attn(x)
attn_out = self.cross_attn(normed, mask=source_attention_mask, context=context, position_embeddings=position_embeddings, position_embeddings_context=position_embeddings_context)
x = x + attn_out
x = x + self.mlp(self.norm_mlp(x))
return x
def init_weights(self):
torch.nn.init.zeros_(self.mlp[2].weight)
self.cross_attn.init_weights()
class LLMAdapter(nn.Module):
def __init__(
self,
source_dim=1024,
target_dim=1024,
model_dim=1024,
num_layers=6,
num_heads=16,
use_self_attn=True,
layer_norm=False,
device=None,
dtype=None,
operations=None,
):
super().__init__()
self.embed = operations.Embedding(32128, target_dim, device=device, dtype=dtype)
if model_dim != target_dim:
self.in_proj = operations.Linear(target_dim, model_dim, device=device, dtype=dtype)
else:
self.in_proj = nn.Identity()
self.rotary_emb = RotaryEmbedding(model_dim//num_heads)
self.blocks = nn.ModuleList([
TransformerBlock(source_dim, model_dim, num_heads=num_heads, use_self_attn=use_self_attn, layer_norm=layer_norm, device=device, dtype=dtype, operations=operations) for _ in range(num_layers)
])
self.out_proj = operations.Linear(model_dim, target_dim, device=device, dtype=dtype)
self.norm = operations.RMSNorm(target_dim, eps=1e-6, device=device, dtype=dtype)
def forward(self, source_hidden_states, target_input_ids, target_attention_mask=None, source_attention_mask=None):
if target_attention_mask is not None:
target_attention_mask = target_attention_mask.to(torch.bool)
if target_attention_mask.ndim == 2:
target_attention_mask = target_attention_mask.unsqueeze(1).unsqueeze(1)
if source_attention_mask is not None:
source_attention_mask = source_attention_mask.to(torch.bool)
if source_attention_mask.ndim == 2:
source_attention_mask = source_attention_mask.unsqueeze(1).unsqueeze(1)
x = self.in_proj(self.embed(target_input_ids))
context = source_hidden_states
position_ids = torch.arange(x.shape[1], device=x.device).unsqueeze(0)
position_ids_context = torch.arange(context.shape[1], device=x.device).unsqueeze(0)
position_embeddings = self.rotary_emb(x, position_ids)
position_embeddings_context = self.rotary_emb(x, position_ids_context)
for block in self.blocks:
x = block(x, context, target_attention_mask=target_attention_mask, source_attention_mask=source_attention_mask, position_embeddings=position_embeddings, position_embeddings_context=position_embeddings_context)
return self.norm(self.out_proj(x))
class Anima(MiniTrainDIT):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.llm_adapter = LLMAdapter(device=kwargs.get("device"), dtype=kwargs.get("dtype"), operations=kwargs.get("operations"))
def preprocess_text_embeds(self, text_embeds, text_ids):
if text_ids is not None:
return self.llm_adapter(text_embeds, text_ids)
else:
return text_embeds

2
comfy/ldm/audio/dit.py
View File

@@ -635,7 +635,7 @@ class ContinuousTransformer(nn.Module):
# Attention layers
if self.rotary_pos_emb is not None:
rotary_pos_emb = self.rotary_pos_emb.forward_from_seq_len(x.shape[1], dtype=torch.float, device=x.device)
rotary_pos_emb = self.rotary_pos_emb.forward_from_seq_len(x.shape[1], dtype=x.dtype, device=x.device)
else:
rotary_pos_emb = None

124
comfy/ldm/chroma/layers.py
View File

@@ -1,15 +1,15 @@
import torch
from torch import Tensor, nn
from comfy.ldm.flux.math import attention
from comfy.ldm.flux.layers import (
MLPEmbedder,
RMSNorm,
QKNorm,
SelfAttention,
ModulationOut,
)
# TODO: remove this in a few months
SingleStreamBlock = None
DoubleStreamBlock = None
class ChromaModulationOut(ModulationOut):
@@ -48,6 +48,124 @@ class Approximator(nn.Module):
return x
class DoubleStreamBlock(nn.Module):
def __init__(self, hidden_size: int, num_heads: int, mlp_ratio: float, qkv_bias: bool = False, flipped_img_txt=False, dtype=None, device=None, operations=None):
super().__init__()
mlp_hidden_dim = int(hidden_size * mlp_ratio)
self.num_heads = num_heads
self.hidden_size = hidden_size
self.img_norm1 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.img_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, dtype=dtype, device=device, operations=operations)
self.img_norm2 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.img_mlp = nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim, bias=True, dtype=dtype, device=device),
nn.GELU(approximate="tanh"),
operations.Linear(mlp_hidden_dim, hidden_size, bias=True, dtype=dtype, device=device),
)
self.txt_norm1 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.txt_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, dtype=dtype, device=device, operations=operations)
self.txt_norm2 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.txt_mlp = nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim, bias=True, dtype=dtype, device=device),
nn.GELU(approximate="tanh"),
operations.Linear(mlp_hidden_dim, hidden_size, bias=True, dtype=dtype, device=device),
)
self.flipped_img_txt = flipped_img_txt
def forward(self, img: Tensor, txt: Tensor, pe: Tensor, vec: Tensor, attn_mask=None, transformer_options={}):
(img_mod1, img_mod2), (txt_mod1, txt_mod2) = vec
# prepare image for attention
img_modulated = torch.addcmul(img_mod1.shift, 1 + img_mod1.scale, self.img_norm1(img))
img_qkv = self.img_attn.qkv(img_modulated)
img_q, img_k, img_v = img_qkv.view(img_qkv.shape[0], img_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
img_q, img_k = self.img_attn.norm(img_q, img_k, img_v)
# prepare txt for attention
txt_modulated = torch.addcmul(txt_mod1.shift, 1 + txt_mod1.scale, self.txt_norm1(txt))
txt_qkv = self.txt_attn.qkv(txt_modulated)
txt_q, txt_k, txt_v = txt_qkv.view(txt_qkv.shape[0], txt_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
txt_q, txt_k = self.txt_attn.norm(txt_q, txt_k, txt_v)
# run actual attention
attn = attention(torch.cat((txt_q, img_q), dim=2),
torch.cat((txt_k, img_k), dim=2),
torch.cat((txt_v, img_v), dim=2),
pe=pe, mask=attn_mask, transformer_options=transformer_options)
txt_attn, img_attn = attn[:, : txt.shape[1]], attn[:, txt.shape[1] :]
# calculate the img bloks
img.addcmul_(img_mod1.gate, self.img_attn.proj(img_attn))
img.addcmul_(img_mod2.gate, self.img_mlp(torch.addcmul(img_mod2.shift, 1 + img_mod2.scale, self.img_norm2(img))))
# calculate the txt bloks
txt.addcmul_(txt_mod1.gate, self.txt_attn.proj(txt_attn))
txt.addcmul_(txt_mod2.gate, self.txt_mlp(torch.addcmul(txt_mod2.shift, 1 + txt_mod2.scale, self.txt_norm2(txt))))
if txt.dtype == torch.float16:
txt = torch.nan_to_num(txt, nan=0.0, posinf=65504, neginf=-65504)
return img, txt
class SingleStreamBlock(nn.Module):
"""
A DiT block with parallel linear layers as described in
https://arxiv.org/abs/2302.05442 and adapted modulation interface.
"""
def __init__(
self,
hidden_size: int,
num_heads: int,
mlp_ratio: float = 4.0,
qk_scale: float = None,
dtype=None,
device=None,
operations=None
):
super().__init__()
self.hidden_dim = hidden_size
self.num_heads = num_heads
head_dim = hidden_size // num_heads
self.scale = qk_scale or head_dim**-0.5
self.mlp_hidden_dim = int(hidden_size * mlp_ratio)
# qkv and mlp_in
self.linear1 = operations.Linear(hidden_size, hidden_size * 3 + self.mlp_hidden_dim, dtype=dtype, device=device)
# proj and mlp_out
self.linear2 = operations.Linear(hidden_size + self.mlp_hidden_dim, hidden_size, dtype=dtype, device=device)
self.norm = QKNorm(head_dim, dtype=dtype, device=device, operations=operations)
self.hidden_size = hidden_size
self.pre_norm = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.mlp_act = nn.GELU(approximate="tanh")
def forward(self, x: Tensor, pe: Tensor, vec: Tensor, attn_mask=None, transformer_options={}) -> Tensor:
mod = vec
x_mod = torch.addcmul(mod.shift, 1 + mod.scale, self.pre_norm(x))
qkv, mlp = torch.split(self.linear1(x_mod), [3 * self.hidden_size, self.mlp_hidden_dim], dim=-1)
q, k, v = qkv.view(qkv.shape[0], qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
q, k = self.norm(q, k, v)
# compute attention
attn = attention(q, k, v, pe=pe, mask=attn_mask, transformer_options=transformer_options)
# compute activation in mlp stream, cat again and run second linear layer
output = self.linear2(torch.cat((attn, self.mlp_act(mlp)), 2))
x.addcmul_(mod.gate, output)
if x.dtype == torch.float16:
x = torch.nan_to_num(x, nan=0.0, posinf=65504, neginf=-65504)
return x
class LastLayer(nn.Module):
def __init__(self, hidden_size: int, patch_size: int, out_channels: int, dtype=None, device=None, operations=None):
super().__init__()

26
comfy/ldm/chroma/model.py
View File

@@ -11,12 +11,12 @@ import comfy.ldm.common_dit
from comfy.ldm.flux.layers import (
EmbedND,
timestep_embedding,
DoubleStreamBlock,
SingleStreamBlock,
)
from .layers import (
DoubleStreamBlock,
LastLayer,
SingleStreamBlock,
Approximator,
ChromaModulationOut,
)
@@ -40,8 +40,7 @@ class ChromaParams:
out_dim: int
hidden_dim: int
n_layers: int
txt_ids_dims: list
vec_in_dim: int
@@ -91,7 +90,6 @@ class Chroma(nn.Module):
self.num_heads,
mlp_ratio=params.mlp_ratio,
qkv_bias=params.qkv_bias,
modulation=False,
dtype=dtype, device=device, operations=operations
)
for _ in range(params.depth)
@@ -100,7 +98,7 @@ class Chroma(nn.Module):
self.single_blocks = nn.ModuleList(
[
SingleStreamBlock(self.hidden_size, self.num_heads, mlp_ratio=params.mlp_ratio, modulation=False, dtype=dtype, device=device, operations=operations)
SingleStreamBlock(self.hidden_size, self.num_heads, mlp_ratio=params.mlp_ratio, dtype=dtype, device=device, operations=operations)
for _ in range(params.depth_single_blocks)
]
)
@@ -153,6 +151,8 @@ class Chroma(nn.Module):
attn_mask: Tensor = None,
) -> Tensor:
patches_replace = transformer_options.get("patches_replace", {})
if img.ndim != 3 or txt.ndim != 3:
raise ValueError("Input img and txt tensors must have 3 dimensions.")
# running on sequences img
img = self.img_in(img)
@@ -180,10 +180,7 @@ class Chroma(nn.Module):
pe = self.pe_embedder(ids)
blocks_replace = patches_replace.get("dit", {})
transformer_options["total_blocks"] = len(self.double_blocks)
transformer_options["block_type"] = "double"
for i, block in enumerate(self.double_blocks):
transformer_options["block_index"] = i
if i not in self.skip_mmdit:
double_mod = (
self.get_modulations(mod_vectors, "double_img", idx=i),
@@ -226,10 +223,7 @@ class Chroma(nn.Module):
img = torch.cat((txt, img), 1)
transformer_options["total_blocks"] = len(self.single_blocks)
transformer_options["block_type"] = "single"
for i, block in enumerate(self.single_blocks):
transformer_options["block_index"] = i
if i not in self.skip_dit:
single_mod = self.get_modulations(mod_vectors, "single", idx=i)
if ("single_block", i) in blocks_replace:
@@ -260,9 +254,8 @@ class Chroma(nn.Module):
img[:, txt.shape[1] :, ...] += add
img = img[:, txt.shape[1] :, ...]
if hasattr(self, "final_layer"):
final_mod = self.get_modulations(mod_vectors, "final")
img = self.final_layer(img, vec=final_mod) # (N, T, patch_size ** 2 * out_channels)
final_mod = self.get_modulations(mod_vectors, "final")
img = self.final_layer(img, vec=final_mod) # (N, T, patch_size ** 2 * out_channels)
return img
def forward(self, x, timestep, context, guidance, control=None, transformer_options={}, **kwargs):
@@ -278,9 +271,6 @@ class Chroma(nn.Module):
img = rearrange(x, "b c (h ph) (w pw) -> b (h w) (c ph pw)", ph=self.patch_size, pw=self.patch_size)
if img.ndim != 3 or context.ndim != 3:
raise ValueError("Input img and txt tensors must have 3 dimensions.")
h_len = ((h + (self.patch_size // 2)) // self.patch_size)
w_len = ((w + (self.patch_size // 2)) // self.patch_size)
img_ids = torch.zeros((h_len, w_len, 3), device=x.device, dtype=x.dtype)

206
comfy/ldm/chroma_radiance/layers.py
View File

@@ -1,206 +0,0 @@
# Adapted from https://github.com/lodestone-rock/flow
from functools import lru_cache
import torch
from torch import nn
from comfy.ldm.flux.layers import RMSNorm
class NerfEmbedder(nn.Module):
"""
An embedder module that combines input features with a 2D positional
encoding that mimics the Discrete Cosine Transform (DCT).
This module takes an input tensor of shape (B, P^2, C), where P is the
patch size, and enriches it with positional information before projecting
it to a new hidden size.
"""
def __init__(
self,
in_channels: int,
hidden_size_input: int,
max_freqs: int,
dtype=None,
device=None,
operations=None,
):
"""
Initializes the NerfEmbedder.
Args:
in_channels (int): The number of channels in the input tensor.
hidden_size_input (int): The desired dimension of the output embedding.
max_freqs (int): The number of frequency components to use for both
the x and y dimensions of the positional encoding.
The total number of positional features will be max_freqs^2.
"""
super().__init__()
self.dtype = dtype
self.max_freqs = max_freqs
self.hidden_size_input = hidden_size_input
# A linear layer to project the concatenated input features and
# positional encodings to the final output dimension.
self.embedder = nn.Sequential(
operations.Linear(in_channels + max_freqs**2, hidden_size_input, dtype=dtype, device=device)
)
@lru_cache(maxsize=4)
def fetch_pos(self, patch_size: int, device: torch.device, dtype: torch.dtype) -> torch.Tensor:
"""
Generates and caches 2D DCT-like positional embeddings for a given patch size.
The LRU cache is a performance optimization that avoids recomputing the
same positional grid on every forward pass.
Args:
patch_size (int): The side length of the square input patch.
device: The torch device to create the tensors on.
dtype: The torch dtype for the tensors.
Returns:
A tensor of shape (1, patch_size^2, max_freqs^2) containing the
positional embeddings.
"""
# Create normalized 1D coordinate grids from 0 to 1.
pos_x = torch.linspace(0, 1, patch_size, device=device, dtype=dtype)
pos_y = torch.linspace(0, 1, patch_size, device=device, dtype=dtype)
# Create a 2D meshgrid of coordinates.
pos_y, pos_x = torch.meshgrid(pos_y, pos_x, indexing="ij")
# Reshape positions to be broadcastable with frequencies.
# Shape becomes (patch_size^2, 1, 1).
pos_x = pos_x.reshape(-1, 1, 1)
pos_y = pos_y.reshape(-1, 1, 1)
# Create a 1D tensor of frequency values from 0 to max_freqs-1.
freqs = torch.linspace(0, self.max_freqs - 1, self.max_freqs, dtype=dtype, device=device)
# Reshape frequencies to be broadcastable for creating 2D basis functions.
# freqs_x shape: (1, max_freqs, 1)
# freqs_y shape: (1, 1, max_freqs)
freqs_x = freqs[None, :, None]
freqs_y = freqs[None, None, :]
# A custom weighting coefficient, not part of standard DCT.
# This seems to down-weight the contribution of higher-frequency interactions.
coeffs = (1 + freqs_x * freqs_y) ** -1
# Calculate the 1D cosine basis functions for x and y coordinates.
# This is the core of the DCT formulation.
dct_x = torch.cos(pos_x * freqs_x * torch.pi)
dct_y = torch.cos(pos_y * freqs_y * torch.pi)
# Combine the 1D basis functions to create 2D basis functions by element-wise
# multiplication, and apply the custom coefficients. Broadcasting handles the
# combination of all (pos_x, freqs_x) with all (pos_y, freqs_y).
# The result is flattened into a feature vector for each position.
dct = (dct_x * dct_y * coeffs).view(1, -1, self.max_freqs ** 2)
return dct
def forward(self, inputs: torch.Tensor) -> torch.Tensor:
"""
Forward pass for the embedder.
Args:
inputs (Tensor): The input tensor of shape (B, P^2, C).
Returns:
Tensor: The output tensor of shape (B, P^2, hidden_size_input).
"""
# Get the batch size, number of pixels, and number of channels.
B, P2, C = inputs.shape
# Infer the patch side length from the number of pixels (P^2).
patch_size = int(P2 ** 0.5)
input_dtype = inputs.dtype
inputs = inputs.to(dtype=self.dtype)
# Fetch the pre-computed or cached positional embeddings.
dct = self.fetch_pos(patch_size, inputs.device, self.dtype)
# Repeat the positional embeddings for each item in the batch.
dct = dct.repeat(B, 1, 1)
# Concatenate the original input features with the positional embeddings
# along the feature dimension.
inputs = torch.cat((inputs, dct), dim=-1)
# Project the combined tensor to the target hidden size.
return self.embedder(inputs).to(dtype=input_dtype)
class NerfGLUBlock(nn.Module):
"""
A NerfBlock using a Gated Linear Unit (GLU) like MLP.
"""
def __init__(self, hidden_size_s: int, hidden_size_x: int, mlp_ratio, dtype=None, device=None, operations=None):
super().__init__()
# The total number of parameters for the MLP is increased to accommodate
# the gate, value, and output projection matrices.
# We now need to generate parameters for 3 matrices.
total_params = 3 * hidden_size_x**2 * mlp_ratio
self.param_generator = operations.Linear(hidden_size_s, total_params, dtype=dtype, device=device)
self.norm = RMSNorm(hidden_size_x, dtype=dtype, device=device, operations=operations)
self.mlp_ratio = mlp_ratio
def forward(self, x: torch.Tensor, s: torch.Tensor) -> torch.Tensor:
batch_size, num_x, hidden_size_x = x.shape
mlp_params = self.param_generator(s)
# Split the generated parameters into three parts for the gate, value, and output projection.
fc1_gate_params, fc1_value_params, fc2_params = mlp_params.chunk(3, dim=-1)
# Reshape the parameters into matrices for batch matrix multiplication.
fc1_gate = fc1_gate_params.view(batch_size, hidden_size_x, hidden_size_x * self.mlp_ratio)
fc1_value = fc1_value_params.view(batch_size, hidden_size_x, hidden_size_x * self.mlp_ratio)
fc2 = fc2_params.view(batch_size, hidden_size_x * self.mlp_ratio, hidden_size_x)
# Normalize the generated weight matrices as in the original implementation.
fc1_gate = torch.nn.functional.normalize(fc1_gate, dim=-2)
fc1_value = torch.nn.functional.normalize(fc1_value, dim=-2)
fc2 = torch.nn.functional.normalize(fc2, dim=-2)
res_x = x
x = self.norm(x)
# Apply the final output projection.
x = torch.bmm(torch.nn.functional.silu(torch.bmm(x, fc1_gate)) * torch.bmm(x, fc1_value), fc2)
return x + res_x
class NerfFinalLayer(nn.Module):
def __init__(self, hidden_size, out_channels, dtype=None, device=None, operations=None):
super().__init__()
self.norm = RMSNorm(hidden_size, dtype=dtype, device=device, operations=operations)
self.linear = operations.Linear(hidden_size, out_channels, dtype=dtype, device=device)
def forward(self, x: torch.Tensor) -> torch.Tensor:
# RMSNorm normalizes over the last dimension, but our channel dim (C) is at dim=1.
# So we temporarily move the channel dimension to the end for the norm operation.
return self.linear(self.norm(x.movedim(1, -1))).movedim(-1, 1)
class NerfFinalLayerConv(nn.Module):
def __init__(self, hidden_size: int, out_channels: int, dtype=None, device=None, operations=None):
super().__init__()
self.norm = RMSNorm(hidden_size, dtype=dtype, device=device, operations=operations)
self.conv = operations.Conv2d(
in_channels=hidden_size,
out_channels=out_channels,
kernel_size=3,
padding=1,
dtype=dtype,
device=device,
)
def forward(self, x: torch.Tensor) -> torch.Tensor:
# RMSNorm normalizes over the last dimension, but our channel dim (C) is at dim=1.
# So we temporarily move the channel dimension to the end for the norm operation.
return self.conv(self.norm(x.movedim(1, -1)).movedim(-1, 1))

335
comfy/ldm/chroma_radiance/model.py
View File

@@ -1,335 +0,0 @@
# Credits:
# Original Flux code can be found on: https://github.com/black-forest-labs/flux
# Chroma Radiance adaption referenced from https://github.com/lodestone-rock/flow
from dataclasses import dataclass
from typing import Optional
import torch
from torch import Tensor, nn
from einops import repeat
import comfy.ldm.common_dit
from comfy.ldm.flux.layers import EmbedND, DoubleStreamBlock, SingleStreamBlock
from comfy.ldm.chroma.model import Chroma, ChromaParams
from comfy.ldm.chroma.layers import (
Approximator,
)
from .layers import (
NerfEmbedder,
NerfGLUBlock,
NerfFinalLayer,
NerfFinalLayerConv,
)
@dataclass
class ChromaRadianceParams(ChromaParams):
patch_size: int
nerf_hidden_size: int
nerf_mlp_ratio: int
nerf_depth: int
nerf_max_freqs: int
# Setting nerf_tile_size to 0 disables tiling.
nerf_tile_size: int
# Currently one of linear (legacy) or conv.
nerf_final_head_type: str
# None means use the same dtype as the model.
nerf_embedder_dtype: Optional[torch.dtype]
use_x0: bool
class ChromaRadiance(Chroma):
"""
Transformer model for flow matching on sequences.
"""
def __init__(self, image_model=None, final_layer=True, dtype=None, device=None, operations=None, **kwargs):
if operations is None:
raise RuntimeError("Attempt to create ChromaRadiance object without setting operations")
nn.Module.__init__(self)
self.dtype = dtype
params = ChromaRadianceParams(**kwargs)
self.params = params
self.patch_size = params.patch_size
self.in_channels = params.in_channels
self.out_channels = params.out_channels
if params.hidden_size % params.num_heads != 0:
raise ValueError(
f"Hidden size {params.hidden_size} must be divisible by num_heads {params.num_heads}"
)
pe_dim = params.hidden_size // params.num_heads
if sum(params.axes_dim) != pe_dim:
raise ValueError(f"Got {params.axes_dim} but expected positional dim {pe_dim}")
self.hidden_size = params.hidden_size
self.num_heads = params.num_heads
self.in_dim = params.in_dim
self.out_dim = params.out_dim
self.hidden_dim = params.hidden_dim
self.n_layers = params.n_layers
self.pe_embedder = EmbedND(dim=pe_dim, theta=params.theta, axes_dim=params.axes_dim)
self.img_in_patch = operations.Conv2d(
params.in_channels,
params.hidden_size,
kernel_size=params.patch_size,
stride=params.patch_size,
bias=True,
dtype=dtype,
device=device,
)
self.txt_in = operations.Linear(params.context_in_dim, self.hidden_size, dtype=dtype, device=device)
# set as nn identity for now, will overwrite it later.
self.distilled_guidance_layer = Approximator(
in_dim=self.in_dim,
hidden_dim=self.hidden_dim,
out_dim=self.out_dim,
n_layers=self.n_layers,
dtype=dtype, device=device, operations=operations
)
self.double_blocks = nn.ModuleList(
[
DoubleStreamBlock(
self.hidden_size,
self.num_heads,
mlp_ratio=params.mlp_ratio,
qkv_bias=params.qkv_bias,
modulation=False,
dtype=dtype, device=device, operations=operations
)
for _ in range(params.depth)
]
)
self.single_blocks = nn.ModuleList(
[
SingleStreamBlock(
self.hidden_size,
self.num_heads,
mlp_ratio=params.mlp_ratio,
modulation=False,
dtype=dtype, device=device, operations=operations,
)
for _ in range(params.depth_single_blocks)
]
)
# pixel channel concat with DCT
self.nerf_image_embedder = NerfEmbedder(
in_channels=params.in_channels,
hidden_size_input=params.nerf_hidden_size,
max_freqs=params.nerf_max_freqs,
dtype=params.nerf_embedder_dtype or dtype,
device=device,
operations=operations,
)
self.nerf_blocks = nn.ModuleList([
NerfGLUBlock(
hidden_size_s=params.hidden_size,
hidden_size_x=params.nerf_hidden_size,
mlp_ratio=params.nerf_mlp_ratio,
dtype=dtype,
device=device,
operations=operations,
) for _ in range(params.nerf_depth)
])
if params.nerf_final_head_type == "linear":
self.nerf_final_layer = NerfFinalLayer(
params.nerf_hidden_size,
out_channels=params.in_channels,
dtype=dtype,
device=device,
operations=operations,
)
elif params.nerf_final_head_type == "conv":
self.nerf_final_layer_conv = NerfFinalLayerConv(
params.nerf_hidden_size,
out_channels=params.in_channels,
dtype=dtype,
device=device,
operations=operations,
)
else:
errstr = f"Unsupported nerf_final_head_type {params.nerf_final_head_type}"
raise ValueError(errstr)
self.skip_mmdit = []
self.skip_dit = []
self.lite = False
if params.use_x0:
self.register_buffer("__x0__", torch.tensor([]))
@property
def _nerf_final_layer(self) -> nn.Module:
if self.params.nerf_final_head_type == "linear":
return self.nerf_final_layer
if self.params.nerf_final_head_type == "conv":
return self.nerf_final_layer_conv
# Impossible to get here as we raise an error on unexpected types on initialization.
raise NotImplementedError
def img_in(self, img: Tensor) -> Tensor:
img = self.img_in_patch(img) # -> [B, Hidden, H/P, W/P]
# flatten into a sequence for the transformer.
return img.flatten(2).transpose(1, 2) # -> [B, NumPatches, Hidden]
def forward_nerf(
self,
img_orig: Tensor,
img_out: Tensor,
params: ChromaRadianceParams,
) -> Tensor:
B, C, H, W = img_orig.shape
num_patches = img_out.shape[1]
patch_size = params.patch_size
# Store the raw pixel values of each patch for the NeRF head later.
# unfold creates patches: [B, C * P * P, NumPatches]
nerf_pixels = nn.functional.unfold(img_orig, kernel_size=patch_size, stride=patch_size)
nerf_pixels = nerf_pixels.transpose(1, 2) # -> [B, NumPatches, C * P * P]
# Reshape for per-patch processing
nerf_hidden = img_out.reshape(B * num_patches, params.hidden_size)
nerf_pixels = nerf_pixels.reshape(B * num_patches, C, patch_size**2).transpose(1, 2)
if params.nerf_tile_size > 0 and num_patches > params.nerf_tile_size:
# Enable tiling if nerf_tile_size isn't 0 and we actually have more patches than
# the tile size.
img_dct = self.forward_tiled_nerf(nerf_hidden, nerf_pixels, B, C, num_patches, patch_size, params)
else:
# Get DCT-encoded pixel embeddings [pixel-dct]
img_dct = self.nerf_image_embedder(nerf_pixels)
# Pass through the dynamic MLP blocks (the NeRF)
for block in self.nerf_blocks:
img_dct = block(img_dct, nerf_hidden)
# Reassemble the patches into the final image.
img_dct = img_dct.transpose(1, 2) # -> [B*NumPatches, C, P*P]
# Reshape to combine with batch dimension for fold
img_dct = img_dct.reshape(B, num_patches, -1) # -> [B, NumPatches, C*P*P]
img_dct = img_dct.transpose(1, 2) # -> [B, C*P*P, NumPatches]
img_dct = nn.functional.fold(
img_dct,
output_size=(H, W),
kernel_size=patch_size,
stride=patch_size,
)
return self._nerf_final_layer(img_dct)
def forward_tiled_nerf(
self,
nerf_hidden: Tensor,
nerf_pixels: Tensor,
batch: int,
channels: int,
num_patches: int,
patch_size: int,
params: ChromaRadianceParams,
) -> Tensor:
"""
Processes the NeRF head in tiles to save memory.
nerf_hidden has shape [B, L, D]
nerf_pixels has shape [B, L, C * P * P]
"""
tile_size = params.nerf_tile_size
output_tiles = []
# Iterate over the patches in tiles. The dimension L (num_patches) is at index 1.
for i in range(0, num_patches, tile_size):
end = min(i + tile_size, num_patches)
# Slice the current tile from the input tensors
nerf_hidden_tile = nerf_hidden[i * batch:end * batch]
nerf_pixels_tile = nerf_pixels[i * batch:end * batch]
# get DCT-encoded pixel embeddings [pixel-dct]
img_dct_tile = self.nerf_image_embedder(nerf_pixels_tile)
# pass through the dynamic MLP blocks (the NeRF)
for block in self.nerf_blocks:
img_dct_tile = block(img_dct_tile, nerf_hidden_tile)
output_tiles.append(img_dct_tile)
# Concatenate the processed tiles along the patch dimension
return torch.cat(output_tiles, dim=0)
def radiance_get_override_params(self, overrides: dict) -> ChromaRadianceParams:
params = self.params
if not overrides:
return params
params_dict = {k: getattr(params, k) for k in params.__dataclass_fields__}
nullable_keys = frozenset(("nerf_embedder_dtype",))
bad_keys = tuple(k for k in overrides if k not in params_dict)
if bad_keys:
e = f"Unknown key(s) in transformer_options chroma_radiance_options: {', '.join(bad_keys)}"
raise ValueError(e)
bad_keys = tuple(
k
for k, v in overrides.items()
if not isinstance(v, type(getattr(params, k))) and (v is not None or k not in nullable_keys)
)
if bad_keys:
e = f"Invalid value(s) in transformer_options chroma_radiance_options: {', '.join(bad_keys)}"
raise ValueError(e)
# At this point it's all valid keys and values so we can merge with the existing params.
params_dict |= overrides
return params.__class__(**params_dict)
def _apply_x0_residual(self, predicted, noisy, timesteps):
# non zero during training to prevent 0 div
eps = 0.0
return (noisy - predicted) / (timesteps.view(-1,1,1,1) + eps)
def _forward(
self,
x: Tensor,
timestep: Tensor,
context: Tensor,
guidance: Optional[Tensor],
control: Optional[dict]=None,
transformer_options: dict={},
**kwargs: dict,
) -> Tensor:
bs, c, h, w = x.shape
img = comfy.ldm.common_dit.pad_to_patch_size(x, (self.patch_size, self.patch_size))
if img.ndim != 4:
raise ValueError("Input img tensor must be in [B, C, H, W] format.")
if context.ndim != 3:
raise ValueError("Input txt tensors must have 3 dimensions.")
params = self.radiance_get_override_params(transformer_options.get("chroma_radiance_options", {}))
h_len = (img.shape[-2] // self.patch_size)
w_len = (img.shape[-1] // self.patch_size)
img_ids = torch.zeros((h_len, w_len, 3), device=x.device, dtype=x.dtype)
img_ids[:, :, 1] = img_ids[:, :, 1] + torch.linspace(0, h_len - 1, steps=h_len, device=x.device, dtype=x.dtype).unsqueeze(1)
img_ids[:, :, 2] = img_ids[:, :, 2] + torch.linspace(0, w_len - 1, steps=w_len, device=x.device, dtype=x.dtype).unsqueeze(0)
img_ids = repeat(img_ids, "h w c -> b (h w) c", b=bs)
txt_ids = torch.zeros((bs, context.shape[1], 3), device=x.device, dtype=x.dtype)
img_out = self.forward_orig(
img,
img_ids,
context,
txt_ids,
timestep,
guidance,
control,
transformer_options,
attn_mask=kwargs.get("attention_mask", None),
)
out = self.forward_nerf(img, img_out, params)[:, :, :h, :w]
# If x0 variant → v-pred, just return this instead
if hasattr(self, "__x0__"):
out = self._apply_x0_residual(out, img, timestep)
return out

172
comfy/ldm/flux/layers.py
View File

@@ -48,44 +48,15 @@ def timestep_embedding(t: Tensor, dim, max_period=10000, time_factor: float = 10
return embedding
class MLPEmbedder(nn.Module):
def __init__(self, in_dim: int, hidden_dim: int, bias=True, dtype=None, device=None, operations=None):
def __init__(self, in_dim: int, hidden_dim: int, dtype=None, device=None, operations=None):
super().__init__()
self.in_layer = operations.Linear(in_dim, hidden_dim, bias=bias, dtype=dtype, device=device)
self.in_layer = operations.Linear(in_dim, hidden_dim, bias=True, dtype=dtype, device=device)
self.silu = nn.SiLU()
self.out_layer = operations.Linear(hidden_dim, hidden_dim, bias=bias, dtype=dtype, device=device)
self.out_layer = operations.Linear(hidden_dim, hidden_dim, bias=True, dtype=dtype, device=device)
def forward(self, x: Tensor) -> Tensor:
return self.out_layer(self.silu(self.in_layer(x)))
class YakMLP(nn.Module):
def __init__(self, hidden_size: int, intermediate_size: int, dtype=None, device=None, operations=None):
super().__init__()
self.hidden_size = hidden_size
self.intermediate_size = intermediate_size
self.gate_proj = operations.Linear(self.hidden_size, self.intermediate_size, bias=True, dtype=dtype, device=device)
self.up_proj = operations.Linear(self.hidden_size, self.intermediate_size, bias=True, dtype=dtype, device=device)
self.down_proj = operations.Linear(self.intermediate_size, self.hidden_size, bias=True, dtype=dtype, device=device)
self.act_fn = nn.SiLU()
def forward(self, x: Tensor) -> Tensor:
down_proj = self.down_proj(self.act_fn(self.gate_proj(x)) * self.up_proj(x))
return down_proj
def build_mlp(hidden_size, mlp_hidden_dim, mlp_silu_act=False, yak_mlp=False, dtype=None, device=None, operations=None):
if yak_mlp:
return YakMLP(hidden_size, mlp_hidden_dim, dtype=dtype, device=device, operations=operations)
if mlp_silu_act:
return nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim * 2, bias=False, dtype=dtype, device=device),
SiLUActivation(),
operations.Linear(mlp_hidden_dim, hidden_size, bias=False, dtype=dtype, device=device),
)
else:
return nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim, bias=True, dtype=dtype, device=device),
nn.GELU(approximate="tanh"),
operations.Linear(mlp_hidden_dim, hidden_size, bias=True, dtype=dtype, device=device),
)
class RMSNorm(torch.nn.Module):
def __init__(self, dim: int, dtype=None, device=None, operations=None):
@@ -109,14 +80,14 @@ class QKNorm(torch.nn.Module):
class SelfAttention(nn.Module):
def __init__(self, dim: int, num_heads: int = 8, qkv_bias: bool = False, proj_bias: bool = True, dtype=None, device=None, operations=None):
def __init__(self, dim: int, num_heads: int = 8, qkv_bias: bool = False, dtype=None, device=None, operations=None):
super().__init__()
self.num_heads = num_heads
head_dim = dim // num_heads
self.qkv = operations.Linear(dim, dim * 3, bias=qkv_bias, dtype=dtype, device=device)
self.norm = QKNorm(head_dim, dtype=dtype, device=device, operations=operations)
self.proj = operations.Linear(dim, dim, bias=proj_bias, dtype=dtype, device=device)
self.proj = operations.Linear(dim, dim, dtype=dtype, device=device)
@dataclass
@@ -127,11 +98,11 @@ class ModulationOut:
class Modulation(nn.Module):
def __init__(self, dim: int, double: bool, bias=True, dtype=None, device=None, operations=None):
def __init__(self, dim: int, double: bool, dtype=None, device=None, operations=None):
super().__init__()
self.is_double = double
self.multiplier = 6 if double else 3
self.lin = operations.Linear(dim, self.multiplier * dim, bias=bias, dtype=dtype, device=device)
self.lin = operations.Linear(dim, self.multiplier * dim, bias=True, dtype=dtype, device=device)
def forward(self, vec: Tensor) -> tuple:
if vec.ndim == 2:
@@ -158,107 +129,77 @@ def apply_mod(tensor, m_mult, m_add=None, modulation_dims=None):
return tensor
class SiLUActivation(nn.Module):
def __init__(self):
super().__init__()
self.gate_fn = nn.SiLU()
def forward(self, x: Tensor) -> Tensor:
x1, x2 = x.chunk(2, dim=-1)
return self.gate_fn(x1) * x2
class DoubleStreamBlock(nn.Module):
def __init__(self, hidden_size: int, num_heads: int, mlp_ratio: float, qkv_bias: bool = False, flipped_img_txt=False, modulation=True, mlp_silu_act=False, proj_bias=True, yak_mlp=False, dtype=None, device=None, operations=None):
def __init__(self, hidden_size: int, num_heads: int, mlp_ratio: float, qkv_bias: bool = False, flipped_img_txt=False, dtype=None, device=None, operations=None):
super().__init__()
mlp_hidden_dim = int(hidden_size * mlp_ratio)
self.num_heads = num_heads
self.hidden_size = hidden_size
self.modulation = modulation
if self.modulation:
self.img_mod = Modulation(hidden_size, double=True, dtype=dtype, device=device, operations=operations)
self.img_mod = Modulation(hidden_size, double=True, dtype=dtype, device=device, operations=operations)
self.img_norm1 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.img_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, proj_bias=proj_bias, dtype=dtype, device=device, operations=operations)
self.img_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, dtype=dtype, device=device, operations=operations)
self.img_norm2 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.img_mlp = nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim, bias=True, dtype=dtype, device=device),
nn.GELU(approximate="tanh"),
operations.Linear(mlp_hidden_dim, hidden_size, bias=True, dtype=dtype, device=device),
)
self.img_mlp = build_mlp(hidden_size, mlp_hidden_dim, mlp_silu_act=mlp_silu_act, yak_mlp=yak_mlp, dtype=dtype, device=device, operations=operations)
if self.modulation:
self.txt_mod = Modulation(hidden_size, double=True, dtype=dtype, device=device, operations=operations)
self.txt_mod = Modulation(hidden_size, double=True, dtype=dtype, device=device, operations=operations)
self.txt_norm1 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.txt_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, proj_bias=proj_bias, dtype=dtype, device=device, operations=operations)
self.txt_attn = SelfAttention(dim=hidden_size, num_heads=num_heads, qkv_bias=qkv_bias, dtype=dtype, device=device, operations=operations)
self.txt_norm2 = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.txt_mlp = build_mlp(hidden_size, mlp_hidden_dim, mlp_silu_act=mlp_silu_act, yak_mlp=yak_mlp, dtype=dtype, device=device, operations=operations)
self.txt_mlp = nn.Sequential(
operations.Linear(hidden_size, mlp_hidden_dim, bias=True, dtype=dtype, device=device),
nn.GELU(approximate="tanh"),
operations.Linear(mlp_hidden_dim, hidden_size, bias=True, dtype=dtype, device=device),
)
self.flipped_img_txt = flipped_img_txt
def forward(self, img: Tensor, txt: Tensor, vec: Tensor, pe: Tensor, attn_mask=None, modulation_dims_img=None, modulation_dims_txt=None, transformer_options={}):
if self.modulation:
img_mod1, img_mod2 = self.img_mod(vec)
txt_mod1, txt_mod2 = self.txt_mod(vec)
else:
(img_mod1, img_mod2), (txt_mod1, txt_mod2) = vec
img_mod1, img_mod2 = self.img_mod(vec)
txt_mod1, txt_mod2 = self.txt_mod(vec)
# prepare image for attention
img_modulated = self.img_norm1(img)
img_modulated = apply_mod(img_modulated, (1 + img_mod1.scale), img_mod1.shift, modulation_dims_img)
img_qkv = self.img_attn.qkv(img_modulated)
del img_modulated
img_q, img_k, img_v = img_qkv.view(img_qkv.shape[0], img_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
del img_qkv
img_q, img_k = self.img_attn.norm(img_q, img_k, img_v)
# prepare txt for attention
txt_modulated = self.txt_norm1(txt)
txt_modulated = apply_mod(txt_modulated, (1 + txt_mod1.scale), txt_mod1.shift, modulation_dims_txt)
txt_qkv = self.txt_attn.qkv(txt_modulated)
del txt_modulated
txt_q, txt_k, txt_v = txt_qkv.view(txt_qkv.shape[0], txt_qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
del txt_qkv
txt_q, txt_k = self.txt_attn.norm(txt_q, txt_k, txt_v)
if self.flipped_img_txt:
q = torch.cat((img_q, txt_q), dim=2)
del img_q, txt_q
k = torch.cat((img_k, txt_k), dim=2)
del img_k, txt_k
v = torch.cat((img_v, txt_v), dim=2)
del img_v, txt_v
# run actual attention
attn = attention(q, k, v,
attn = attention(torch.cat((img_q, txt_q), dim=2),
torch.cat((img_k, txt_k), dim=2),
torch.cat((img_v, txt_v), dim=2),
pe=pe, mask=attn_mask, transformer_options=transformer_options)
del q, k, v
img_attn, txt_attn = attn[:, : img.shape[1]], attn[:, img.shape[1]:]
else:
q = torch.cat((txt_q, img_q), dim=2)
del txt_q, img_q
k = torch.cat((txt_k, img_k), dim=2)
del txt_k, img_k
v = torch.cat((txt_v, img_v), dim=2)
del txt_v, img_v
# run actual attention
attn = attention(q, k, v,
attn = attention(torch.cat((txt_q, img_q), dim=2),
torch.cat((txt_k, img_k), dim=2),
torch.cat((txt_v, img_v), dim=2),
pe=pe, mask=attn_mask, transformer_options=transformer_options)
del q, k, v
txt_attn, img_attn = attn[:, : txt.shape[1]], attn[:, txt.shape[1]:]
# calculate the img bloks
img += apply_mod(self.img_attn.proj(img_attn), img_mod1.gate, None, modulation_dims_img)
del img_attn
img += apply_mod(self.img_mlp(apply_mod(self.img_norm2(img), (1 + img_mod2.scale), img_mod2.shift, modulation_dims_img)), img_mod2.gate, None, modulation_dims_img)
img = img + apply_mod(self.img_attn.proj(img_attn), img_mod1.gate, None, modulation_dims_img)
img = img + apply_mod(self.img_mlp(apply_mod(self.img_norm2(img), (1 + img_mod2.scale), img_mod2.shift, modulation_dims_img)), img_mod2.gate, None, modulation_dims_img)
# calculate the txt bloks
txt += apply_mod(self.txt_attn.proj(txt_attn), txt_mod1.gate, None, modulation_dims_txt)
del txt_attn
txt += apply_mod(self.txt_mlp(apply_mod(self.txt_norm2(txt), (1 + txt_mod2.scale), txt_mod2.shift, modulation_dims_txt)), txt_mod2.gate, None, modulation_dims_txt)
if txt.dtype == torch.float16:
@@ -279,10 +220,6 @@ class SingleStreamBlock(nn.Module):
num_heads: int,
mlp_ratio: float = 4.0,
qk_scale: float = None,
modulation=True,
mlp_silu_act=False,
bias=True,
yak_mlp=False,
dtype=None,
device=None,
operations=None
@@ -294,55 +231,30 @@ class SingleStreamBlock(nn.Module):
self.scale = qk_scale or head_dim**-0.5
self.mlp_hidden_dim = int(hidden_size * mlp_ratio)
self.mlp_hidden_dim_first = self.mlp_hidden_dim
self.yak_mlp = yak_mlp
if mlp_silu_act:
self.mlp_hidden_dim_first = int(hidden_size * mlp_ratio * 2)
self.mlp_act = SiLUActivation()
else:
self.mlp_act = nn.GELU(approximate="tanh")
if self.yak_mlp:
self.mlp_hidden_dim_first *= 2
self.mlp_act = nn.SiLU()
# qkv and mlp_in
self.linear1 = operations.Linear(hidden_size, hidden_size * 3 + self.mlp_hidden_dim_first, bias=bias, dtype=dtype, device=device)
self.linear1 = operations.Linear(hidden_size, hidden_size * 3 + self.mlp_hidden_dim, dtype=dtype, device=device)
# proj and mlp_out
self.linear2 = operations.Linear(hidden_size + self.mlp_hidden_dim, hidden_size, bias=bias, dtype=dtype, device=device)
self.linear2 = operations.Linear(hidden_size + self.mlp_hidden_dim, hidden_size, dtype=dtype, device=device)
self.norm = QKNorm(head_dim, dtype=dtype, device=device, operations=operations)
self.hidden_size = hidden_size
self.pre_norm = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
if modulation:
self.modulation = Modulation(hidden_size, double=False, dtype=dtype, device=device, operations=operations)
else:
self.modulation = None
self.mlp_act = nn.GELU(approximate="tanh")
self.modulation = Modulation(hidden_size, double=False, dtype=dtype, device=device, operations=operations)
def forward(self, x: Tensor, vec: Tensor, pe: Tensor, attn_mask=None, modulation_dims=None, transformer_options={}) -> Tensor:
if self.modulation:
mod, _ = self.modulation(vec)
else:
mod = vec
qkv, mlp = torch.split(self.linear1(apply_mod(self.pre_norm(x), (1 + mod.scale), mod.shift, modulation_dims)), [3 * self.hidden_size, self.mlp_hidden_dim_first], dim=-1)
mod, _ = self.modulation(vec)
qkv, mlp = torch.split(self.linear1(apply_mod(self.pre_norm(x), (1 + mod.scale), mod.shift, modulation_dims)), [3 * self.hidden_size, self.mlp_hidden_dim], dim=-1)
q, k, v = qkv.view(qkv.shape[0], qkv.shape[1], 3, self.num_heads, -1).permute(2, 0, 3, 1, 4)
del qkv
q, k = self.norm(q, k, v)
# compute attention
attn = attention(q, k, v, pe=pe, mask=attn_mask, transformer_options=transformer_options)
del q, k, v
# compute activation in mlp stream, cat again and run second linear layer
if self.yak_mlp:
mlp = self.mlp_act(mlp[..., self.mlp_hidden_dim_first // 2:]) * mlp[..., :self.mlp_hidden_dim_first // 2]
else:
mlp = self.mlp_act(mlp)
output = self.linear2(torch.cat((attn, mlp), 2))
output = self.linear2(torch.cat((attn, self.mlp_act(mlp)), 2))
x += apply_mod(output, mod.gate, None, modulation_dims)
if x.dtype == torch.float16:
x = torch.nan_to_num(x, nan=0.0, posinf=65504, neginf=-65504)
@@ -350,11 +262,11 @@ class SingleStreamBlock(nn.Module):
class LastLayer(nn.Module):
def __init__(self, hidden_size: int, patch_size: int, out_channels: int, bias=True, dtype=None, device=None, operations=None):
def __init__(self, hidden_size: int, patch_size: int, out_channels: int, dtype=None, device=None, operations=None):
super().__init__()
self.norm_final = operations.LayerNorm(hidden_size, elementwise_affine=False, eps=1e-6, dtype=dtype, device=device)
self.linear = operations.Linear(hidden_size, patch_size * patch_size * out_channels, bias=bias, dtype=dtype, device=device)
self.adaLN_modulation = nn.Sequential(nn.SiLU(), operations.Linear(hidden_size, 2 * hidden_size, bias=bias, dtype=dtype, device=device))
self.linear = operations.Linear(hidden_size, patch_size * patch_size * out_channels, bias=True, dtype=dtype, device=device)
self.adaLN_modulation = nn.Sequential(nn.SiLU(), operations.Linear(hidden_size, 2 * hidden_size, bias=True, dtype=dtype, device=device))
def forward(self, x: Tensor, vec: Tensor, modulation_dims=None) -> Tensor:
if vec.ndim == 2:

32
comfy/ldm/flux/math.py
View File

@@ -4,16 +4,23 @@ from torch import Tensor
from comfy.ldm.modules.attention import optimized_attention
import comfy.model_management
import logging
def attention(q: Tensor, k: Tensor, v: Tensor, pe: Tensor, mask=None, transformer_options={}) -> Tensor:
q_shape = q.shape
k_shape = k.shape
if pe is not None:
q, k = apply_rope(q, k, pe)
q = q.to(dtype=pe.dtype).reshape(*q.shape[:-1], -1, 1, 2)
k = k.to(dtype=pe.dtype).reshape(*k.shape[:-1], -1, 1, 2)
q = (pe[..., 0] * q[..., 0] + pe[..., 1] * q[..., 1]).reshape(*q_shape).type_as(v)
k = (pe[..., 0] * k[..., 0] + pe[..., 1] * k[..., 1]).reshape(*k_shape).type_as(v)
heads = q.shape[1]
x = optimized_attention(q, k, v, heads, skip_reshape=True, mask=mask, transformer_options=transformer_options)
return x
def rope(pos: Tensor, dim: int, theta: int) -> Tensor:
assert dim % 2 == 0
if comfy.model_management.is_device_mps(pos.device) or comfy.model_management.is_intel_xpu() or comfy.model_management.is_directml_enabled():
@@ -29,19 +36,10 @@ def rope(pos: Tensor, dim: int, theta: int) -> Tensor:
return out.to(dtype=torch.float32, device=pos.device)
try:
import comfy.quant_ops
apply_rope = comfy.quant_ops.ck.apply_rope
apply_rope1 = comfy.quant_ops.ck.apply_rope1
except:
logging.warning("No comfy kitchen, using old apply_rope functions.")
def apply_rope1(x: Tensor, freqs_cis: Tensor):
x_ = x.to(dtype=freqs_cis.dtype).reshape(*x.shape[:-1], -1, 1, 2)
def apply_rope(xq: Tensor, xk: Tensor, freqs_cis: Tensor):
xq_ = xq.to(dtype=freqs_cis.dtype).reshape(*xq.shape[:-1], -1, 1, 2)
xk_ = xk.to(dtype=freqs_cis.dtype).reshape(*xk.shape[:-1], -1, 1, 2)
xq_out = freqs_cis[..., 0] * xq_[..., 0] + freqs_cis[..., 1] * xq_[..., 1]
xk_out = freqs_cis[..., 0] * xk_[..., 0] + freqs_cis[..., 1] * xk_[..., 1]
return xq_out.reshape(*xq.shape).type_as(xq), xk_out.reshape(*xk.shape).type_as(xk)
x_out = freqs_cis[..., 0] * x_[..., 0]
x_out.addcmul_(freqs_cis[..., 1], x_[..., 1])
return x_out.reshape(*x.shape).type_as(x)
def apply_rope(xq: Tensor, xk: Tensor, freqs_cis: Tensor):
return apply_rope1(xq, freqs_cis), apply_rope1(xk, freqs_cis)

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