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125 Commits
v3.0.0+a2 ... feat/ui/im

Author SHA1 Message Date
maryhipp
d46a7dcd94 feat(api): change implementation for path endpoint 2023-04-19 12:45:04 -07:00
maryhipp
dbc81921f0 feat(api): add route to get image location 2023-04-19 10:23:06 -07:00
psychedelicious
1e12c9b21f fix(nodes): revert change to RandomRangeInvocation 2023-04-20 00:05:41 +10:00
psychedelicious
162bcda49e feat(nodes): add metadata module + tests, thumbnails 
- `MetadataModule` is stateless and needed in places where the `InvocationContext` is not available, so have not made it a `service`
- Handles loading/parsing/building metadata, and creating png info objects
- added tests for MetadataModule
- Lifted thumbnail stuff to util
 2023-04-19 23:49:40 +10:00
psychedelicious
2b53ce50e0 feat(nodes): fix broken upload 2023-04-19 00:09:01 +10:00
psychedelicious
1933184ca7 feat(ui): move fonts to normal deps 2023-04-18 23:51:56 +10:00
psychedelicious
cc1e6374a6 feat(ui): wip metadata viewer recall 2023-04-18 22:54:44 +10:00
psychedelicious
a65ad1b42f feat(ui): improve invocation union types 2023-04-18 22:54:05 +10:00
psychedelicious
16f39978e9 feat(ui): tidy misc 2023-04-18 22:22:40 +10:00
psychedelicious
4e5ac85567 feat(ui): tidy graph builders 2023-04-18 22:22:03 +10:00
psychedelicious
dffdca674e feat(ui): img2img/txt2img -> linear 
- remove txt2img and img2img tabs
- add linear tab
- add initial image selection to linear parameters accordion
 2023-04-18 18:22:04 +10:00
psychedelicious
0ad0efcc44 Merge remote-tracking branch 'origin/main' into feat/ui/nodes-api 2023-04-18 13:41:11 +10:00
psychedelicious
daaf41daab fix(nodes): fix image output schema customization 2023-04-18 13:40:55 +10:00
psychedelicious
1a22d50269 feat(nodes): move GET images error handling to DiskImageStorage 2023-04-18 13:40:33 +10:00
psychedelicious
53e3cf162a feat(nodes): move GET images error handling to DiskImageStorage 2023-04-18 13:26:07 +10:00
psychedelicious
61cf59d4f6 feat(nodes): address feedback 2023-04-18 13:10:11 +10:00
psychedelicious
f600104e80 feat(nodes): add seeded rng to RandomRange 2023-04-18 00:04:19 +10:00
psychedelicious
fff55bd991 feat(nodes): wip address metadata feedback 2023-04-17 21:56:15 +10:00
psychedelicious
64f044a984 fix(backend): roll back changes to pngwriter 2023-04-17 21:12:38 +10:00
psychedelicious
a15300ac8d Merge remote-tracking branch 'origin/main' into feat/ui/nodes-api 2023-04-17 18:58:18 +10:00
psychedelicious
fb0ec1c8d0 fix(nodes): partially address feedback 2023-04-17 18:41:26 +10:00
psychedelicious
ae172b74a4 feat(nodes): roll back sqlalchemy 2023-04-17 12:20:31 +10:00
psychedelicious
1284bab4af feat(ui): wip nodes etc 2023-04-16 23:36:50 +10:00
psychedelicious
20bf47e9cd feat(nodes): make ImageField attrs optional 2023-04-16 22:41:08 +10:00
psychedelicious
978bde315b feat(nodes): add title ui hint 2023-04-16 22:40:43 +10:00
psychedelicious
caa1bf9d17 feat(nodes): fix LoadImageInvocation 2023-04-16 22:40:06 +10:00
psychedelicious
dfb934a2d4 tests(nodes): fix test instantiation of ImageField 2023-04-15 16:01:42 +10:00
Mary Hipp
f94d63ec94 feat(ui): export new type for invoke component 2023-04-14 16:47:36 -04:00
psychedelicious
50357e8b4e fix(nodes): fix sqlite typing 2023-04-14 19:54:05 +10:00
psychedelicious
b1240de669 feat(ui): wip range/iterate 2023-04-14 19:35:37 +10:00
psychedelicious
75f433b9bd feat(ui, nodes): more metadata wip 2023-04-14 19:35:37 +10:00
psychedelicious
53a1a3eb61 feat(ui, nodes): models 2023-04-14 19:35:37 +10:00
psychedelicious
65f2a7ea31 feat(ui, nodes): metadata wip 2023-04-14 19:35:37 +10:00
psychedelicious
49612d69d0 fix(ui): fix sqlalchemy dynamic model instantiation 2023-04-14 19:35:37 +10:00
psychedelicious
77ceb950b9 feat(ui): rewrite SqliteItemStore in sqlalchemy 2023-04-14 19:35:37 +10:00
psychedelicious
bffb860535 feat(ui): handle already-connected fields 2023-04-14 19:35:08 +10:00
psychedelicious
8807089c5b feat(ui): add url host transformation 2023-04-14 19:35:08 +10:00
Mary Hipp
7cb3b2e56e add redux-dynamic-middlewares as a dependency 2023-04-14 19:35:08 +10:00
psychedelicious
387e7f949a chore(ui): rebuild api, update types 2023-04-14 19:35:08 +10:00
psychedelicious
cf562f140c feat(ui): wip node editor 2023-04-14 19:35:08 +10:00
psychedelicious
ef890058b9 docs(ui): update nodes doc 2023-04-14 19:35:08 +10:00
psychedelicious
442848598d feat(ui): validation connections w/ graphlib 2023-04-14 19:35:08 +10:00
psychedelicious
80c555ef76 feat(ui): wip model handling and graph topology validation 2023-04-14 19:35:08 +10:00
psychedelicious
d729d1c100 feat(ui): it blends 2023-04-14 19:35:08 +10:00
psychedelicious
266ce200cc feat(ui): increase edge width 2023-04-14 19:35:08 +10:00
psychedelicious
eb02acb22e feat(ui): add connection validation styling 2023-04-14 19:35:08 +10:00
psychedelicious
f4e2928ac3 fix(ui): add basic node edges & connection validation 2023-04-14 19:35:08 +10:00
psychedelicious
48677ac10b fix(ui): fix handle 2023-04-14 19:35:08 +10:00
psychedelicious
7a4d9e18d8 feat(ui): hook up nodes to redux 2023-04-14 19:35:08 +10:00
psychedelicious
e1279e63d1 feat(ui): cleanup nodes ui stuff 2023-04-14 19:35:08 +10:00
psychedelicious
bab407fc65 feat(ui): nodes before deleting stuff 2023-04-14 19:35:08 +10:00
psychedelicious
afb9a9589a feat(ui): remove extraneous field types 2023-04-14 19:35:08 +10:00
psychedelicious
45bc2211c8 feat(ui): wip node editor 2023-04-14 19:35:08 +10:00
psychedelicious
cb185f16bc fix(ui): disable event subscription 
it is not fully baked just yet
 2023-04-14 19:35:08 +10:00
psychedelicious
3ab32aedc0 feat(ui): first steps to node editor ui 2023-04-14 19:35:08 +10:00
psychedelicious
ea334aa92a feat(ui): "subscribe" to particular nodes 
feels like a dirty hack but oh well it works
 2023-04-14 19:35:08 +10:00
Mary Hipp
1ef2bf2d2d feat(ui): add hi-res functionality for txt2img generations 2023-04-14 19:35:08 +10:00
Mary Hipp
a165959ab5 feat(ui): update ModelSelect for nodes API 2023-04-14 19:35:08 +10:00
Mary Hipp
2386d5d786 feat(ui): generate iterations graph 2023-04-14 19:35:08 +10:00
psychedelicious
18aa0c91da feat(ui): add exampleGraphs object w/ iterations example 2023-04-14 19:35:08 +10:00
psychedelicious
3f5a443c0c fix(ui): fix middleware order for multi-node graphs 2023-04-14 19:35:08 +10:00
psychedelicious
b771e9a190 feat(ui): increase StatusIndicator font size 2023-04-14 19:35:08 +10:00
psychedelicious
0ffe2c67b0 feat(ui): improve InvocationCompleteEvent types 2023-04-14 19:35:08 +10:00
psychedelicious
9560a2b890 chore(ui): regenerate api client 2023-04-14 19:35:08 +10:00
psychedelicious
8fe49fdb55 fix(ui): fix img2img type 2023-04-14 19:35:08 +10:00
psychedelicious
106420fba9 feat(ui): migrate cancelation 
also updated action names to be event-like instead of declaration-like

sorry, i was scattered and this commit has a lot of unrelated stuff in it.
 2023-04-14 19:35:08 +10:00
psychedelicious
85f101cdc8 feat(ui): prep for socket jwt 2023-04-14 19:35:08 +10:00
psychedelicious
7155360378 feat(ui): dynamic middleware loading 2023-04-14 19:35:08 +10:00
Mary Hipp
793a4ddbb2 feat(ui) working on making socket URL dynamic 2023-04-14 19:35:08 +10:00
Mary Hipp
b31b8d31ad feat(ui): export StatusIndicator and ModelSelect for header use 2023-04-14 19:35:08 +10:00
Mary Hipp
914a7f160b feat(ui): add optional token for auth 2023-04-14 19:35:08 +10:00
psychedelicious
5819c32fb8 feat(ui): wip events, comments, and general refactoring 2023-04-14 19:35:08 +10:00
psychedelicious
f118933467 lang(ui): add toast strings 2023-04-14 19:35:08 +10:00
psychedelicious
e4e5409d32 docs(ui): organise and update docs 2023-04-14 19:35:08 +10:00
Mary Hipp
35021565ff feat(ui): add support to disableTabs 2023-04-14 19:35:08 +10:00
Mary Hipp
ff9c78cee7 disable panels when app mounts 2023-04-14 19:35:08 +10:00
Mary Hipp
d5b03408da feat(ui): invert logic to be disabled 2023-04-14 19:35:08 +10:00
Mary Hipp
97f764c7c5 feat(ui): disable panels based on app props 2023-04-14 19:35:08 +10:00
psychedelicious
b565b6b2f5 feat(ui): wip refactor socket events 2023-04-14 19:35:08 +10:00
psychedelicious
87a917b22b chore(ui): regenerate api 2023-04-14 19:35:08 +10:00
psychedelicious
b1dbf5428e feat(ui): wip gallery migration 2023-04-14 19:35:08 +10:00
psychedelicious
927a6e425d feat(ui): wip gallery migration 2023-04-14 19:35:08 +10:00
psychedelicious
aa89be32f7 chore(ui): regenerate api 2023-04-14 19:35:08 +10:00
psychedelicious
5c29af4883 feat(ui): patch api generation for headers access 2023-04-14 19:35:08 +10:00
Mary Hipp
85949bc5c8 fix(ui): restore removed type 2023-04-14 19:35:08 +10:00
Mary Hipp
85111e8d76 feat(ui): POST upload working 2023-04-14 19:35:08 +10:00
Mary Hipp
98ebba7ba4 fix(ui): separate thunk for initial gallery load so it properly gets index 0 2023-04-14 19:35:08 +10:00
psychedelicious
891b067470 feat(ui): clean up & comment results slice 2023-04-14 19:35:08 +10:00
psychedelicious
cb849995e4 feat(ui): begin migrating gallery to nodes 
Along the way, migrate to use RTK `createEntityAdapter` for gallery images, and separate `results` and `uploads` into separate slices. Much cleaner this way.
 2023-04-14 19:35:08 +10:00
psychedelicious
156de26995 chore(ui): add typescript as dev dependency 
I am having trouble with TS versions after vscode updated and now uses TS 5. `madge` has installed 3.9.10 and for whatever reason my vscode wants to use that. Manually specifying 4.9.5 and then setting vscode to use that as the workspace TS fixes the issue.
 2023-04-14 19:35:08 +10:00
psychedelicious
7436a9b35d chore(ui): regenerate api client 2023-04-14 19:35:08 +10:00
psychedelicious
aa7eaaed45 docs(ui): update readme 2023-04-14 19:35:08 +10:00
psychedelicious
1520a9e2fc chore(ui): bump redux-toolkit 2023-04-14 19:35:08 +10:00
psychedelicious
1a21edf085 feat(ui): load images on socket connect 
Rudimentary
 2023-04-14 19:35:08 +10:00
psychedelicious
8b66a737a7 feat(ui): add type guards for outputs 2023-04-14 19:35:08 +10:00
psychedelicious
183a20cfd8 feat(ui): make thunk types more consistent 2023-04-14 19:35:08 +10:00
psychedelicious
1260dfcacc feat(ui): fix parameters panel border color 
This commit should be elsewhere but I don't want to break my flow
 2023-04-14 19:35:08 +10:00
psychedelicious
9ee5cb4395 feat(ui): disable NodeAPITest 
This was polluting the network/socket logs.
 2023-04-14 19:35:08 +10:00
psychedelicious
3554d3568f feat(ui): add rtk action type guard 2023-04-14 19:35:08 +10:00
psychedelicious
c2a92d1254 fix(ui): fix middleware types 2023-04-14 19:35:08 +10:00
psychedelicious
efa6e89dc2 feat(ui): handle random seeds 2023-04-14 19:35:08 +10:00
psychedelicious
ba500fc3cb feat(ui): add nodes mode script 2023-04-14 19:35:08 +10:00
maryhipp
8446c6cd1f chore(ui): add support for package mode 2023-04-14 19:35:08 +10:00
maryhipp
8e2350ec4c feat(ui): get intermediate images working but types are stubbed out 2023-04-14 19:35:08 +10:00
maryhipp
dd66b3bf25 feat(ui): img2img implementation 2023-04-14 19:35:08 +10:00
maryhipp
dfa69d815e feat(ui): write separate nodes socket layer, txt2img generating and rendering w single node 2023-04-14 19:35:08 +10:00
maryhipp
bf8682fd4e feat(ui): start hooking up dynamic txt2img node generation, create middleware for session invocation 2023-04-14 19:35:08 +10:00
maryhipp
64b02ead37 add optional apiUrl prop 2023-04-14 19:35:08 +10:00
maryhipp
afc2518c66 use reference to sampler_name 2023-04-14 19:35:08 +10:00
maryhipp
28b7b785b0 use reference to sampler_name 2023-04-14 19:35:08 +10:00
maryhipp
9cb592539a start building out node translations from frontend state and add notes about missing features 2023-04-14 19:35:08 +10:00
psychedelicious
41a87406b3 feat(ui): wip nodes 
- extract api client method arg types instead of manually declaring them
- update example to display images
- general tidy up
 2023-04-14 19:35:08 +10:00
psychedelicious
163c075b3d feat(ui): add socketio types 2023-04-14 19:35:08 +10:00
psychedelicious
c84f689766 fix(ui): fix scrollbar styles typing and prop 
just noticed the typo, and made the types stronger.
 2023-04-14 19:35:08 +10:00
psychedelicious
c38a712c0b fix(ui): disable OG web server socket connection 2023-04-14 19:35:08 +10:00
psychedelicious
13de5edd70 chore(ui): regenerate api client 2023-04-14 19:35:08 +10:00
psychedelicious
090f2a839e feat(ui): nodes cancel 2023-04-14 19:35:08 +10:00
psychedelicious
e5cb04f309 feat(ui): more nodes api prototyping 2023-04-14 19:35:08 +10:00
psychedelicious
d6faf6d5a1 feat(ui): generate object args for api client 2023-04-14 19:35:08 +10:00
psychedelicious
b4ade3db3a feat(backend): fixes for nodes/generator 2023-04-14 19:35:08 +10:00
psychedelicious
7647f8899d chore(ui): update openapi.json 2023-04-14 19:35:08 +10:00
psychedelicious
c82d92bc82 chore(ui): update .eslintignore, .prettierignore 2023-04-14 19:35:08 +10:00
psychedelicious
67b13c3b70 chore(ui): organize generated files 2023-04-14 19:35:08 +10:00
psychedelicious
9b93d85746 fix(ui): update client & nodes test code w/ new Edge type 2023-04-14 19:35:08 +10:00
psychedelicious
818c254cd4 feat(ui): add axios client generator and simple example 2023-04-14 19:35:08 +10:00
1066 changed files with 43795 additions and 50914 deletions
Expand all files Collapse all files

24
.github/CODEOWNERS vendored
View File

@ -1,16 +1,16 @@
# continuous integration
/.github/workflows/ @lstein @blessedcoolant
/.github/workflows/ @mauwii @lstein @blessedcoolant
# documentation
/docs/ @lstein @blessedcoolant @hipsterusername
/mkdocs.yml @lstein @blessedcoolant
/docs/ @lstein @mauwii @tildebyte @blessedcoolant
/mkdocs.yml @lstein @mauwii @blessedcoolant
# nodes
/invokeai/app/ @Kyle0654 @blessedcoolant
# installation and configuration
/pyproject.toml @lstein @blessedcoolant
/docker/ @lstein @blessedcoolant
/pyproject.toml @mauwii @lstein @blessedcoolant
/docker/ @mauwii @lstein @blessedcoolant
/scripts/ @ebr @lstein
/installer/ @lstein @ebr
/invokeai/assets @lstein @ebr
@ -18,17 +18,17 @@
/invokeai/version @lstein @blessedcoolant
# web ui
/invokeai/frontend @blessedcoolant @psychedelicious @lstein @maryhipp
/invokeai/backend @blessedcoolant @psychedelicious @lstein @maryhipp
/invokeai/frontend @blessedcoolant @psychedelicious @lstein
/invokeai/backend @blessedcoolant @psychedelicious @lstein
# generation, model management, postprocessing
/invokeai/backend @damian0815 @lstein @blessedcoolant @jpphoto @gregghelt2 @StAlKeR7779
/invokeai/backend @keturn @damian0815 @lstein @blessedcoolant @jpphoto
# front ends
/invokeai/frontend/CLI @lstein
/invokeai/frontend/install @lstein @ebr
/invokeai/frontend/merge @lstein @blessedcoolant
/invokeai/frontend/training @lstein @blessedcoolant
/invokeai/frontend/web @psychedelicious @blessedcoolant @maryhipp
/invokeai/frontend/install @lstein @ebr @mauwii
/invokeai/frontend/merge @lstein @blessedcoolant @hipsterusername
/invokeai/frontend/training @lstein @blessedcoolant @hipsterusername
/invokeai/frontend/web @psychedelicious @blessedcoolant

15
.github/workflows/mkdocs-material.yml vendored
View File

@ -2,7 +2,8 @@ name: mkdocs-material
on:
push:
branches:
- 'refs/heads/v2.3'
- 'main'
- 'development'
permissions:
contents: write
@ -11,10 +12,6 @@ jobs:
mkdocs-material:
if: github.event.pull_request.draft == false
runs-on: ubuntu-latest
env:
REPO_URL: '${{ github.server_url }}/${{ github.repository }}'
REPO_NAME: '${{ github.repository }}'
SITE_URL: 'https://${{ github.repository_owner }}.github.io/InvokeAI'
steps:
- name: checkout sources
uses: actions/checkout@v3
@ -25,15 +22,11 @@ jobs:
uses: actions/setup-python@v4
with:
python-version: '3.10'
cache: pip
cache-dependency-path: pyproject.toml
- name: install requirements
env:
PIP_USE_PEP517: 1
run: |
python -m \
pip install ".[docs]"
pip install -r docs/requirements-mkdocs.txt
- name: confirm buildability
run: |
@ -43,7 +36,7 @@ jobs:
--verbose
- name: deploy to gh-pages
if: ${{ github.ref == 'refs/heads/v2.3' }}
if: ${{ github.ref == 'refs/heads/main' }}
run: |
python -m \
mkdocs gh-deploy \

32
.github/workflows/test-invoke-pip-skip.yml vendored
View File

@ -1,16 +1,10 @@
name: Test invoke.py pip
# This is a dummy stand-in for the actual tests
# we don't need to run python tests on non-Python changes
# But PRs require passing tests to be mergeable
on:
pull_request:
paths:
- '**'
- '!pyproject.toml'
- '!invokeai/**'
- '!tests/**'
- 'invokeai/frontend/web/**'
merge_group:
workflow_dispatch:
@ -25,26 +19,48 @@ jobs:
strategy:
matrix:
python-version:
# - '3.9'
- '3.10'
pytorch:
# - linux-cuda-11_6
- linux-cuda-11_7
- linux-rocm-5_2
- linux-cpu
- macos-default
- windows-cpu
# - windows-cuda-11_6
# - windows-cuda-11_7
include:
# - pytorch: linux-cuda-11_6
# os: ubuntu-22.04
# extra-index-url: 'https://download.pytorch.org/whl/cu116'
# github-env: $GITHUB_ENV
- pytorch: linux-cuda-11_7
os: ubuntu-22.04
github-env: $GITHUB_ENV
- pytorch: linux-rocm-5_2
os: ubuntu-22.04
extra-index-url: 'https://download.pytorch.org/whl/rocm5.2'
github-env: $GITHUB_ENV
- pytorch: linux-cpu
os: ubuntu-22.04
extra-index-url: 'https://download.pytorch.org/whl/cpu'
github-env: $GITHUB_ENV
- pytorch: macos-default
os: macOS-12
github-env: $GITHUB_ENV
- pytorch: windows-cpu
os: windows-2022
github-env: $env:GITHUB_ENV
# - pytorch: windows-cuda-11_6
# os: windows-2022
# extra-index-url: 'https://download.pytorch.org/whl/cu116'
# github-env: $env:GITHUB_ENV
# - pytorch: windows-cuda-11_7
# os: windows-2022
# extra-index-url: 'https://download.pytorch.org/whl/cu117'
# github-env: $env:GITHUB_ENV
name: ${{ matrix.pytorch }} on ${{ matrix.python-version }}
runs-on: ${{ matrix.os }}
steps:
- name: skip
run: echo "no build required"
- run: 'echo "No build required"'

89
.github/workflows/test-invoke-pip.yml vendored
View File

@ -11,7 +11,6 @@ on:
paths:
- 'pyproject.toml'
- 'invokeai/**'
- 'tests/**'
- '!invokeai/frontend/web/**'
types:
- 'ready_for_review'
@ -33,12 +32,19 @@ jobs:
# - '3.9'
- '3.10'
pytorch:
# - linux-cuda-11_6
- linux-cuda-11_7
- linux-rocm-5_2
- linux-cpu
- macos-default
- windows-cpu
# - windows-cuda-11_6
# - windows-cuda-11_7
include:
# - pytorch: linux-cuda-11_6
# os: ubuntu-22.04
# extra-index-url: 'https://download.pytorch.org/whl/cu116'
# github-env: $GITHUB_ENV
- pytorch: linux-cuda-11_7
os: ubuntu-22.04
github-env: $GITHUB_ENV
@ -56,6 +62,14 @@ jobs:
- pytorch: windows-cpu
os: windows-2022
github-env: $env:GITHUB_ENV
# - pytorch: windows-cuda-11_6
# os: windows-2022
# extra-index-url: 'https://download.pytorch.org/whl/cu116'
# github-env: $env:GITHUB_ENV
# - pytorch: windows-cuda-11_7
# os: windows-2022
# extra-index-url: 'https://download.pytorch.org/whl/cu117'
# github-env: $env:GITHUB_ENV
name: ${{ matrix.pytorch }} on ${{ matrix.python-version }}
runs-on: ${{ matrix.os }}
env:
@ -66,6 +80,11 @@ jobs:
uses: actions/checkout@v3
- name: set test prompt to main branch validation
if: ${{ github.ref == 'refs/heads/main' }}
run: echo "TEST_PROMPTS=tests/preflight_prompts.txt" >> ${{ matrix.github-env }}
- name: set test prompt to Pull Request validation
if: ${{ github.ref != 'refs/heads/main' }}
run: echo "TEST_PROMPTS=tests/validate_pr_prompt.txt" >> ${{ matrix.github-env }}
- name: setup python
@ -86,38 +105,40 @@ jobs:
id: run-pytest
run: pytest
# - name: run invokeai-configure
# env:
# HUGGING_FACE_HUB_TOKEN: ${{ secrets.HUGGINGFACE_TOKEN }}
# run: >
# invokeai-configure
# --yes
# --default_only
# --full-precision
# # can't use fp16 weights without a GPU
- name: set INVOKEAI_OUTDIR
run: >
python -c
"import os;from invokeai.backend.globals import Globals;OUTDIR=os.path.join(Globals.root,str('outputs'));print(f'INVOKEAI_OUTDIR={OUTDIR}')"
>> ${{ matrix.github-env }}
# - name: run invokeai
# id: run-invokeai
# env:
# # Set offline mode to make sure configure preloaded successfully.
# HF_HUB_OFFLINE: 1
# HF_DATASETS_OFFLINE: 1
# TRANSFORMERS_OFFLINE: 1
# INVOKEAI_OUTDIR: ${{ github.workspace }}/results
# run: >
# invokeai
# --no-patchmatch
# --no-nsfw_checker
# --precision=float32
# --always_use_cpu
# --use_memory_db
# --outdir ${{ env.INVOKEAI_OUTDIR }}/${{ matrix.python-version }}/${{ matrix.pytorch }}
# --from_file ${{ env.TEST_PROMPTS }}
- name: run invokeai-configure
id: run-preload-models
env:
HUGGING_FACE_HUB_TOKEN: ${{ secrets.HUGGINGFACE_TOKEN }}
run: >
invokeai-configure
--yes
--default_only
--full-precision
# can't use fp16 weights without a GPU
# - name: Archive results
# env:
# INVOKEAI_OUTDIR: ${{ github.workspace }}/results
# uses: actions/upload-artifact@v3
# with:
# name: results
# path: ${{ env.INVOKEAI_OUTDIR }}
- name: run invokeai
id: run-invokeai
env:
# Set offline mode to make sure configure preloaded successfully.
HF_HUB_OFFLINE: 1
HF_DATASETS_OFFLINE: 1
TRANSFORMERS_OFFLINE: 1
run: >
invokeai
--no-patchmatch
--no-nsfw_checker
--from_file ${{ env.TEST_PROMPTS }}
--outdir ${{ env.INVOKEAI_OUTDIR }}/${{ matrix.python-version }}/${{ matrix.pytorch }}
- name: Archive results
id: archive-results
uses: actions/upload-artifact@v3
with:
name: results
path: ${{ env.INVOKEAI_OUTDIR }}

4
.gitignore vendored
View File

@ -9,8 +9,6 @@ models/ldm/stable-diffusion-v1/model.ckpt
configs/models.user.yaml
config/models.user.yml
invokeai.init
.version
.last_model
# ignore the Anaconda/Miniconda installer used while building Docker image
anaconda.sh
@ -201,8 +199,6 @@ checkpoints
# If it's a Mac
.DS_Store
invokeai/frontend/web/dist/*
# Let the frontend manage its own gitignore
!invokeai/frontend/web/*

189
README.md
View File

@ -1,11 +1,8 @@
<div align="center">
![project hero](https://github.com/invoke-ai/InvokeAI/assets/31807370/1a917d94-e099-4fa1-a70f-7dd8d0691018)
# Invoke AI - Generative AI for Professional Creatives
## Image Generation for Stable Diffusion, Custom-Trained Models, and more.
Learn more about us and get started instantly at [invoke.ai](https://invoke.ai)
![project logo](https://github.com/invoke-ai/InvokeAI/raw/main/docs/assets/invoke_ai_banner.png)
# InvokeAI: A Stable Diffusion Toolkit
[![discord badge]][discord link]
@ -36,32 +33,13 @@
</div>
_**Note: This is an alpha release. Bugs are expected and not all
features are fully implemented. Please use the GitHub [Issues
pages](https://github.com/invoke-ai/InvokeAI/issues?q=is%3Aissue+is%3Aopen)
to report unexpected problems. Also note that InvokeAI root directory
which contains models, outputs and configuration files, has changed
between the 2.x and 3.x release. If you wish to use your v2.3 root
directory with v3.0, please follow the directions in [Migrating a 2.3
root directory to 3.0](#migrating-to-3).**_
InvokeAI is a leading creative engine built to empower professionals and enthusiasts alike. Generate and create stunning visual media using the latest AI-driven technologies. InvokeAI offers an industry leading Web Interface, interactive Command Line Interface, and also serves as the foundation for multiple commercial products.
InvokeAI is a leading creative engine built to empower professionals
and enthusiasts alike. Generate and create stunning visual media using
the latest AI-driven technologies. InvokeAI offers an industry leading
Web Interface, interactive Command Line Interface, and also serves as
the foundation for multiple commercial products.
**Quick links**: [[How to Install](https://invoke-ai.github.io/InvokeAI/#installation)] [<a href="https://discord.gg/ZmtBAhwWhy">Discord Server</a>] [<a href="https://invoke-ai.github.io/InvokeAI/">Documentation and Tutorials</a>] [<a href="https://github.com/invoke-ai/InvokeAI/">Code and Downloads</a>] [<a href="https://github.com/invoke-ai/InvokeAI/issues">Bug Reports</a>] [<a href="https://github.com/invoke-ai/InvokeAI/discussions">Discussion, Ideas & Q&A</a>]
**Quick links**: [[How to
Install](https://invoke-ai.github.io/InvokeAI/#installation)] [<a
href="https://discord.gg/ZmtBAhwWhy">Discord Server</a>] [<a
href="https://invoke-ai.github.io/InvokeAI/">Documentation and
Tutorials</a>] [<a
href="https://github.com/invoke-ai/InvokeAI/">Code and
Downloads</a>] [<a
href="https://github.com/invoke-ai/InvokeAI/issues">Bug Reports</a>]
[<a
href="https://github.com/invoke-ai/InvokeAI/discussions">Discussion,
Ideas & Q&A</a>]
_Note: InvokeAI is rapidly evolving. Please use the
[Issues](https://github.com/invoke-ai/InvokeAI/issues) tab to report bugs and make feature
requests. Be sure to use the provided templates. They will help us diagnose issues faster._
<div align="center">
@ -71,30 +49,22 @@ the foundation for multiple commercial products.
## Table of Contents
Table of Contents 📝
1. [Quick Start](#getting-started-with-invokeai)
2. [Installation](#detailed-installation-instructions)
3. [Hardware Requirements](#hardware-requirements)
4. [Features](#features)
5. [Latest Changes](#latest-changes)
6. [Troubleshooting](#troubleshooting)
7. [Contributing](#contributing)
8. [Contributors](#contributors)
9. [Support](#support)
10. [Further Reading](#further-reading)
**Getting Started**
1. 🏁 [Quick Start](#quick-start)
3. 🖥️ [Hardware Requirements](#hardware-requirements)
**More About Invoke**
1. 🌟 [Features](#features)
2. 📣 [Latest Changes](#latest-changes)
3. 🛠️ [Troubleshooting](#troubleshooting)
**Supporting the Project**
1. 🤝 [Contributing](#contributing)
2. 👥 [Contributors](#contributors)
3. 💕 [Support](#support)
## Quick Start
## Getting Started with InvokeAI
For full installation and upgrade instructions, please see:
[InvokeAI Installation Overview](https://invoke-ai.github.io/InvokeAI/installation/)
If upgrading from version 2.3, please read [Migrating a 2.3 root
directory to 3.0](#migrating-to-3) first.
### Automatic Installer (suggested for 1st time users)
1. Go to the bottom of the [Latest Release Page](https://github.com/invoke-ai/InvokeAI/releases/latest)
@ -103,8 +73,9 @@ directory to 3.0](#migrating-to-3) first.
3. Unzip the file.
4. **Windows:** double-click on the `install.bat` script. **macOS:** Open a Terminal window, drag the file `install.sh` from Finder
into the Terminal, and press return. **Linux:** run `install.sh`.
4. If you are on Windows, double-click on the `install.bat` script. On
macOS, open a Terminal window, drag the file `install.sh` from Finder
into the Terminal, and press return. On Linux, run `install.sh`.
5. You'll be asked to confirm the location of the folder in which
to install InvokeAI and its image generation model files. Pick a
@ -130,7 +101,7 @@ and go to http://localhost:9090.
10. Type `banana sushi` in the box on the top left and click `Invoke`
### Command-Line Installation (for developers and users familiar with Terminals)
### Command-Line Installation (for users familiar with Terminals)
You must have Python 3.9 or 3.10 installed on your machine. Earlier or later versions are
not supported.
@ -177,11 +148,6 @@ not supported.
pip install InvokeAI --use-pep517 --extra-index-url https://download.pytorch.org/whl/rocm5.4.2
```
_For non-GPU systems:_
```terminal
pip install InvokeAI --use-pep517 --extra-index-url https://download.pytorch.org/whl/cpu
```
_For Macintoshes, either Intel or M1/M2:_
```sh
@ -206,7 +172,7 @@ not supported.
Be sure to activate the virtual environment each time before re-launching InvokeAI,
using `source .venv/bin/activate` or `.venv\Scripts\activate`.
## Detailed Installation Instructions
### Detailed Installation Instructions
This fork is supported across Linux, Windows and Macintosh. Linux
users can use either an Nvidia-based card (with CUDA support) or an
@ -214,87 +180,6 @@ AMD card (using the ROCm driver). For full installation and upgrade
instructions, please see:
[InvokeAI Installation Overview](https://invoke-ai.github.io/InvokeAI/installation/INSTALL_SOURCE/)
<a name="migrating-to-3"></a>
### Migrating a v2.3 InvokeAI root directory
The InvokeAI root directory is where the InvokeAI startup file,
installed models, and generated images are stored. It is ordinarily
named `invokeai` and located in your home directory. The contents and
layout of this directory has changed between versions 2.3 and 3.0 and
cannot be used directly.
We currently recommend that you use the installer to create a new root
directory named differently from the 2.3 one, e.g. `invokeai-3` and
then use a migration script to copy your 2.3 models into the new
location. However, if you choose, you can upgrade this directory in
place. This section gives both recipes.
#### Creating a new root directory and migrating old models
This is the safer recipe because it leaves your old root directory in
place to fall back on.
1. Follow the instructions above to create and install InvokeAI in a
directory that has a different name from the 2.3 invokeai directory.
In this example, we will use "invokeai-3"
2. When you are prompted to select models to install, select a minimal
set of models, such as stable-diffusion-v1.5 only.
3. After installation is complete launch `invokeai.sh` (Linux/Mac) or
`invokeai.bat` and select option 8 "Open the developers console". This
will take you to the command line.
4. Issue the command `invokeai-migrate3 --from /path/to/v2.3-root --to
/path/to/invokeai-3-root`. Provide the correct `--from` and `--to`
paths for your v2.3 and v3.0 root directories respectively.
This will copy and convert your old models from 2.3 format to 3.0
format and create a new `models` directory in the 3.0 directory. The
old models directory (which contains the models selected at install
time) will be renamed `models.orig` and can be deleted once you have
confirmed that the migration was successful.
#### Migrating in place
For the adventurous, you may do an in-place upgrade from 2.3 to 3.0
without touching the command line. The recipe is as follows>
1. Launch the InvokeAI launcher script in your current v2.3 root directory.
2. Select option [9] "Update InvokeAI" to bring up the updater dialog.
3a. During the alpha release phase, select option [3] and manually
enter the tag name `v3.0.0+a2`.
3b. Once 3.0 is released, select option [1] to upgrade to the latest release.
4. Once the upgrade is finished you will be returned to the launcher
menu. Select option [7] "Re-run the configure script to fix a broken
install or to complete a major upgrade".
This will run the configure script against the v2.3 directory and
update it to the 3.0 format. The following files will be replaced:
- The invokeai.init file, replaced by invokeai.yaml
- The models directory
- The configs/models.yaml model index
The original versions of these files will be saved with the suffix
".orig" appended to the end. Once you have confirmed that the upgrade
worked, you can safely remove these files. Alternatively you can
restore a working v2.3 directory by removing the new files and
restoring the ".orig" files' original names.
#### Migration Caveats
The migration script will migrate your invokeai settings and models,
including textual inversion models, LoRAs and merges that you may have
installed previously. However it does **not** migrate the generated
images stored in your 2.3-format outputs directory. The released
version of 3.0 is expected to have an interface for importing an
entire directory of image files as a batch.
## Hardware Requirements
InvokeAI is supported across Linux, Windows and macOS. Linux
@ -313,9 +198,13 @@ We do not recommend the GTX 1650 or 1660 series video cards. They are
unable to run in half-precision mode and do not have sufficient VRAM
to render 512x512 images.
**Memory** - At least 12 GB Main Memory RAM.
### Memory
**Disk** - At least 12 GB of free disk space for the machine learning model, Python, and all its dependencies.
- At least 12 GB Main Memory RAM.
### Disk
- At least 12 GB of free disk space for the machine learning model, Python, and all its dependencies.
## Features
@ -331,7 +220,7 @@ The Unified Canvas is a fully integrated canvas implementation with support for
### *Advanced Prompt Syntax*
Invoke AI's advanced prompt syntax allows for token weighting, cross-attention control, and prompt blending, allowing for fine-tuned tweaking of your invocations and exploration of the latent space.
InvokeAI's advanced prompt syntax allows for token weighting, cross-attention control, and prompt blending, allowing for fine-tuned tweaking of your invocations and exploration of the latent space.
### *Command Line Interface*
@ -341,12 +230,16 @@ For users utilizing a terminal-based environment, or who want to take advantage
- *Support for both ckpt and diffusers models*
- *SD 2.0, 2.1 support*
- *Noise Control & Tresholding*
- *Popular Sampler Support*
- *Upscaling & Face Restoration Tools*
- *Embedding Manager & Support*
- *Model Manager & Support*
- *Node-Based Architecture*
- *Node-Based Plug-&-Play UI (Beta)*
- *Boards & Gallery Management
### Coming Soon
- *Node-Based Architecture & UI*
- And more...
### Latest Changes
@ -354,12 +247,12 @@ For our latest changes, view our [Release
Notes](https://github.com/invoke-ai/InvokeAI/releases) and the
[CHANGELOG](docs/CHANGELOG.md).
### Troubleshooting
## Troubleshooting
Please check out our **[Q&A](https://invoke-ai.github.io/InvokeAI/help/TROUBLESHOOT/#faq)** to get solutions for common installation
problems and other issues.
## 🤝 Contributing
## Contributing
Anyone who wishes to contribute to this project, whether documentation, features, bug fixes, code
cleanup, testing, or code reviews, is very much encouraged to do so.
@ -378,12 +271,14 @@ to become part of our community.
Welcome to InvokeAI!
### 👥 Contributors
### Contributors
This fork is a combined effort of various people from across the world.
[Check out the list of all these amazing people](https://invoke-ai.github.io/InvokeAI/other/CONTRIBUTORS/). We thank them for
their time, hard work and effort.
Thanks to [Weblate](https://weblate.org/) for generously providing translation services to this project.
### Support
For support, please use this repository's GitHub Issues tracking service, or join the Discord.

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@ -0,0 +1,164 @@
@echo off
@rem This script will install git (if not found on the PATH variable)
@rem using micromamba (an 8mb static-linked single-file binary, conda replacement).
@rem For users who already have git, this step will be skipped.
@rem Next, it'll download the project's source code.
@rem Then it will download a self-contained, standalone Python and unpack it.
@rem Finally, it'll create the Python virtual environment and preload the models.
@rem This enables a user to install this project without manually installing git or Python
@rem change to the script's directory
PUSHD "%~dp0"
set "no_cache_dir=--no-cache-dir"
if "%1" == "use-cache" (
set "no_cache_dir="
)
echo ***** Installing InvokeAI.. *****
@rem Config
set INSTALL_ENV_DIR=%cd%\installer_files\env
@rem https://mamba.readthedocs.io/en/latest/installation.html
set MICROMAMBA_DOWNLOAD_URL=https://github.com/cmdr2/stable-diffusion-ui/releases/download/v1.1/micromamba.exe
set RELEASE_URL=https://github.com/invoke-ai/InvokeAI
set RELEASE_SOURCEBALL=/archive/refs/heads/main.tar.gz
set PYTHON_BUILD_STANDALONE_URL=https://github.com/indygreg/python-build-standalone/releases/download
set PYTHON_BUILD_STANDALONE=20221002/cpython-3.10.7+20221002-x86_64-pc-windows-msvc-shared-install_only.tar.gz
set PACKAGES_TO_INSTALL=
call git --version >.tmp1 2>.tmp2
if "%ERRORLEVEL%" NEQ "0" set PACKAGES_TO_INSTALL=%PACKAGES_TO_INSTALL% git
@rem Cleanup
del /q .tmp1 .tmp2
@rem (if necessary) install git into a contained environment
if "%PACKAGES_TO_INSTALL%" NEQ "" (
@rem download micromamba
echo ***** Downloading micromamba from %MICROMAMBA_DOWNLOAD_URL% to micromamba.exe *****
call curl -L "%MICROMAMBA_DOWNLOAD_URL%" > micromamba.exe
@rem test the mamba binary
echo ***** Micromamba version: *****
call micromamba.exe --version
@rem create the installer env
if not exist "%INSTALL_ENV_DIR%" (
call micromamba.exe create -y --prefix "%INSTALL_ENV_DIR%"
)
echo ***** Packages to install:%PACKAGES_TO_INSTALL% *****
call micromamba.exe install -y --prefix "%INSTALL_ENV_DIR%" -c conda-forge %PACKAGES_TO_INSTALL%
if not exist "%INSTALL_ENV_DIR%" (
echo ----- There was a problem while installing "%PACKAGES_TO_INSTALL%" using micromamba. Cannot continue. -----
pause
exit /b
)
)
del /q micromamba.exe
@rem For 'git' only
set PATH=%INSTALL_ENV_DIR%\Library\bin;%PATH%
@rem Download/unpack/clean up InvokeAI release sourceball
set err_msg=----- InvokeAI source download failed -----
echo Trying to download "%RELEASE_URL%%RELEASE_SOURCEBALL%"
curl -L %RELEASE_URL%%RELEASE_SOURCEBALL% --output InvokeAI.tgz
if %errorlevel% neq 0 goto err_exit
set err_msg=----- InvokeAI source unpack failed -----
tar -zxf InvokeAI.tgz
if %errorlevel% neq 0 goto err_exit
del /q InvokeAI.tgz
set err_msg=----- InvokeAI source copy failed -----
cd InvokeAI-*
xcopy . .. /e /h
if %errorlevel% neq 0 goto err_exit
cd ..
@rem cleanup
for /f %%i in ('dir /b InvokeAI-*') do rd /s /q %%i
rd /s /q .dev_scripts .github docker-build tests
del /q requirements.in requirements-mkdocs.txt shell.nix
echo ***** Unpacked InvokeAI source *****
@rem Download/unpack/clean up python-build-standalone
set err_msg=----- Python download failed -----
curl -L %PYTHON_BUILD_STANDALONE_URL%/%PYTHON_BUILD_STANDALONE% --output python.tgz
if %errorlevel% neq 0 goto err_exit
set err_msg=----- Python unpack failed -----
tar -zxf python.tgz
if %errorlevel% neq 0 goto err_exit
del /q python.tgz
echo ***** Unpacked python-build-standalone *****
@rem create venv
set err_msg=----- problem creating venv -----
.\python\python -E -s -m venv .venv
if %errorlevel% neq 0 goto err_exit
call .venv\Scripts\activate.bat
echo ***** Created Python virtual environment *****
@rem Print venv's Python version
set err_msg=----- problem calling venv's python -----
echo We're running under
.venv\Scripts\python --version
if %errorlevel% neq 0 goto err_exit
set err_msg=----- pip update failed -----
.venv\Scripts\python -m pip install %no_cache_dir% --no-warn-script-location --upgrade pip wheel
if %errorlevel% neq 0 goto err_exit
echo ***** Updated pip and wheel *****
set err_msg=----- requirements file copy failed -----
copy binary_installer\py3.10-windows-x86_64-cuda-reqs.txt requirements.txt
if %errorlevel% neq 0 goto err_exit
set err_msg=----- main pip install failed -----
.venv\Scripts\python -m pip install %no_cache_dir% --no-warn-script-location -r requirements.txt
if %errorlevel% neq 0 goto err_exit
echo ***** Installed Python dependencies *****
set err_msg=----- InvokeAI setup failed -----
.venv\Scripts\python -m pip install %no_cache_dir% --no-warn-script-location -e .
if %errorlevel% neq 0 goto err_exit
copy binary_installer\invoke.bat.in .\invoke.bat
echo ***** Installed invoke launcher script ******
@rem more cleanup
rd /s /q binary_installer installer_files
@rem preload the models
call .venv\Scripts\python ldm\invoke\config\invokeai_configure.py
set err_msg=----- model download clone failed -----
if %errorlevel% neq 0 goto err_exit
deactivate
echo ***** Finished downloading models *****
echo All done! Execute the file invoke.bat in this directory to start InvokeAI
pause
exit
:err_exit
echo %err_msg%
pause
exit

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@ -0,0 +1,235 @@
#!/usr/bin/env bash
# ensure we're in the correct folder in case user's CWD is somewhere else
scriptdir=$(dirname "$0")
cd "$scriptdir"
set -euo pipefail
IFS=$'\n\t'
function _err_exit {
if test "$1" -ne 0
then
echo -e "Error code $1; Error caught was '$2'"
read -p "Press any key to exit..."
exit
fi
}
# This script will install git (if not found on the PATH variable)
# using micromamba (an 8mb static-linked single-file binary, conda replacement).
# For users who already have git, this step will be skipped.
# Next, it'll download the project's source code.
# Then it will download a self-contained, standalone Python and unpack it.
# Finally, it'll create the Python virtual environment and preload the models.
# This enables a user to install this project without manually installing git or Python
echo -e "\n***** Installing InvokeAI into $(pwd)... *****\n"
export no_cache_dir="--no-cache-dir"
if [ $# -ge 1 ]; then
if [ "$1" = "use-cache" ]; then
export no_cache_dir=""
fi
fi
OS_NAME=$(uname -s)
case "${OS_NAME}" in
Linux*) OS_NAME="linux";;
Darwin*) OS_NAME="darwin";;
*) echo -e "\n----- Unknown OS: $OS_NAME! This script runs only on Linux or macOS -----\n" && exit
esac
OS_ARCH=$(uname -m)
case "${OS_ARCH}" in
x86_64*) ;;
arm64*) ;;
*) echo -e "\n----- Unknown system architecture: $OS_ARCH! This script runs only on x86_64 or arm64 -----\n" && exit
esac
# https://mamba.readthedocs.io/en/latest/installation.html
MAMBA_OS_NAME=$OS_NAME
MAMBA_ARCH=$OS_ARCH
if [ "$OS_NAME" == "darwin" ]; then
MAMBA_OS_NAME="osx"
fi
if [ "$OS_ARCH" == "linux" ]; then
MAMBA_ARCH="aarch64"
fi
if [ "$OS_ARCH" == "x86_64" ]; then
MAMBA_ARCH="64"
fi
PY_ARCH=$OS_ARCH
if [ "$OS_ARCH" == "arm64" ]; then
PY_ARCH="aarch64"
fi
# Compute device ('cd' segment of reqs files) detect goes here
# This needs a ton of work
# Suggestions:
# - lspci
# - check $PATH for nvidia-smi, gtt CUDA/GPU version from output
# - Surely there's a similar utility for AMD?
CD="cuda"
if [ "$OS_NAME" == "darwin" ] && [ "$OS_ARCH" == "arm64" ]; then
CD="mps"
fi
# config
INSTALL_ENV_DIR="$(pwd)/installer_files/env"
MICROMAMBA_DOWNLOAD_URL="https://micro.mamba.pm/api/micromamba/${MAMBA_OS_NAME}-${MAMBA_ARCH}/latest"
RELEASE_URL=https://github.com/invoke-ai/InvokeAI
RELEASE_SOURCEBALL=/archive/refs/heads/main.tar.gz
PYTHON_BUILD_STANDALONE_URL=https://github.com/indygreg/python-build-standalone/releases/download
if [ "$OS_NAME" == "darwin" ]; then
PYTHON_BUILD_STANDALONE=20221002/cpython-3.10.7+20221002-${PY_ARCH}-apple-darwin-install_only.tar.gz
elif [ "$OS_NAME" == "linux" ]; then
PYTHON_BUILD_STANDALONE=20221002/cpython-3.10.7+20221002-${PY_ARCH}-unknown-linux-gnu-install_only.tar.gz
fi
echo "INSTALLING $RELEASE_SOURCEBALL FROM $RELEASE_URL"
PACKAGES_TO_INSTALL=""
if ! hash "git" &>/dev/null; then PACKAGES_TO_INSTALL="$PACKAGES_TO_INSTALL git"; fi
# (if necessary) install git and conda into a contained environment
if [ "$PACKAGES_TO_INSTALL" != "" ]; then
# download micromamba
echo -e "\n***** Downloading micromamba from $MICROMAMBA_DOWNLOAD_URL to micromamba *****\n"
curl -L "$MICROMAMBA_DOWNLOAD_URL" | tar -xvjO bin/micromamba > micromamba
chmod u+x ./micromamba
# test the mamba binary
echo -e "\n***** Micromamba version: *****\n"
./micromamba --version
# create the installer env
if [ ! -e "$INSTALL_ENV_DIR" ]; then
./micromamba create -y --prefix "$INSTALL_ENV_DIR"
fi
echo -e "\n***** Packages to install:$PACKAGES_TO_INSTALL *****\n"
./micromamba install -y --prefix "$INSTALL_ENV_DIR" -c conda-forge "$PACKAGES_TO_INSTALL"
if [ ! -e "$INSTALL_ENV_DIR" ]; then
echo -e "\n----- There was a problem while initializing micromamba. Cannot continue. -----\n"
exit
fi
fi
rm -f micromamba.exe
export PATH="$INSTALL_ENV_DIR/bin:$PATH"
# Download/unpack/clean up InvokeAI release sourceball
_err_msg="\n----- InvokeAI source download failed -----\n"
curl -L $RELEASE_URL/$RELEASE_SOURCEBALL --output InvokeAI.tgz
_err_exit $? _err_msg
_err_msg="\n----- InvokeAI source unpack failed -----\n"
tar -zxf InvokeAI.tgz
_err_exit $? _err_msg
rm -f InvokeAI.tgz
_err_msg="\n----- InvokeAI source copy failed -----\n"
cd InvokeAI-*
cp -r . ..
_err_exit $? _err_msg
cd ..
# cleanup
rm -rf InvokeAI-*/
rm -rf .dev_scripts/ .github/ docker-build/ tests/ requirements.in requirements-mkdocs.txt shell.nix
echo -e "\n***** Unpacked InvokeAI source *****\n"
# Download/unpack/clean up python-build-standalone
_err_msg="\n----- Python download failed -----\n"
curl -L $PYTHON_BUILD_STANDALONE_URL/$PYTHON_BUILD_STANDALONE --output python.tgz
_err_exit $? _err_msg
_err_msg="\n----- Python unpack failed -----\n"
tar -zxf python.tgz
_err_exit $? _err_msg
rm -f python.tgz
echo -e "\n***** Unpacked python-build-standalone *****\n"
# create venv
_err_msg="\n----- problem creating venv -----\n"
if [ "$OS_NAME" == "darwin" ]; then
# patch sysconfig so that extensions can build properly
# adapted from https://github.com/cashapp/hermit-packages/commit/fcba384663892f4d9cfb35e8639ff7a28166ee43
PYTHON_INSTALL_DIR="$(pwd)/python"
SYSCONFIG="$(echo python/lib/python*/_sysconfigdata_*.py)"
TMPFILE="$(mktemp)"
chmod +w "${SYSCONFIG}"
cp "${SYSCONFIG}" "${TMPFILE}"
sed "s,'/install,'${PYTHON_INSTALL_DIR},g" "${TMPFILE}" > "${SYSCONFIG}"
rm -f "${TMPFILE}"
fi
./python/bin/python3 -E -s -m venv .venv
_err_exit $? _err_msg
source .venv/bin/activate
echo -e "\n***** Created Python virtual environment *****\n"
# Print venv's Python version
_err_msg="\n----- problem calling venv's python -----\n"
echo -e "We're running under"
.venv/bin/python3 --version
_err_exit $? _err_msg
_err_msg="\n----- pip update failed -----\n"
.venv/bin/python3 -m pip install $no_cache_dir --no-warn-script-location --upgrade pip
_err_exit $? _err_msg
echo -e "\n***** Updated pip *****\n"
_err_msg="\n----- requirements file copy failed -----\n"
cp binary_installer/py3.10-${OS_NAME}-"${OS_ARCH}"-${CD}-reqs.txt requirements.txt
_err_exit $? _err_msg
_err_msg="\n----- main pip install failed -----\n"
.venv/bin/python3 -m pip install $no_cache_dir --no-warn-script-location -r requirements.txt
_err_exit $? _err_msg
echo -e "\n***** Installed Python dependencies *****\n"
_err_msg="\n----- InvokeAI setup failed -----\n"
.venv/bin/python3 -m pip install $no_cache_dir --no-warn-script-location -e .
_err_exit $? _err_msg
echo -e "\n***** Installed InvokeAI *****\n"
cp binary_installer/invoke.sh.in ./invoke.sh
chmod a+rx ./invoke.sh
echo -e "\n***** Installed invoke launcher script ******\n"
# more cleanup
rm -rf binary_installer/ installer_files/
# preload the models
.venv/bin/python3 scripts/configure_invokeai.py
_err_msg="\n----- model download clone failed -----\n"
_err_exit $? _err_msg
deactivate
echo -e "\n***** Finished downloading models *****\n"
echo "All done! Run the command"
echo " $scriptdir/invoke.sh"
echo "to start InvokeAI."
read -p "Press any key to exit..."
exit

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@ -0,0 +1,36 @@
@echo off
PUSHD "%~dp0"
call .venv\Scripts\activate.bat
echo Do you want to generate images using the
echo 1. command-line
echo 2. browser-based UI
echo OR
echo 3. open the developer console
set /p choice="Please enter 1, 2 or 3: "
if /i "%choice%" == "1" (
echo Starting the InvokeAI command-line.
.venv\Scripts\python scripts\invoke.py %*
) else if /i "%choice%" == "2" (
echo Starting the InvokeAI browser-based UI.
.venv\Scripts\python scripts\invoke.py --web %*
) else if /i "%choice%" == "3" (
echo Developer Console
echo Python command is:
where python
echo Python version is:
python --version
echo *************************
echo You are now in the system shell, with the local InvokeAI Python virtual environment activated,
echo so that you can troubleshoot this InvokeAI installation as necessary.
echo *************************
echo *** Type `exit` to quit this shell and deactivate the Python virtual environment ***
call cmd /k
) else (
echo Invalid selection
pause
exit /b
)
deactivate

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#!/usr/bin/env sh
set -eu
. .venv/bin/activate
# set required env var for torch on mac MPS
if [ "$(uname -s)" == "Darwin" ]; then
export PYTORCH_ENABLE_MPS_FALLBACK=1
fi
echo "Do you want to generate images using the"
echo "1. command-line"
echo "2. browser-based UI"
echo "OR"
echo "3. open the developer console"
echo "Please enter 1, 2, or 3:"
read choice
case $choice in
1)
printf "\nStarting the InvokeAI command-line..\n";
.venv/bin/python scripts/invoke.py $*;
;;
2)
printf "\nStarting the InvokeAI browser-based UI..\n";
.venv/bin/python scripts/invoke.py --web $*;
;;
3)
printf "\nDeveloper Console:\n";
printf "Python command is:\n\t";
which python;
printf "Python version is:\n\t";
python --version;
echo "*************************"
echo "You are now in your user shell ($SHELL) with the local InvokeAI Python virtual environment activated,";
echo "so that you can troubleshoot this InvokeAI installation as necessary.";
printf "*************************\n"
echo "*** Type \`exit\` to quit this shell and deactivate the Python virtual environment *** ";
/usr/bin/env "$SHELL";
;;
*)
echo "Invalid selection";
exit
;;
esac

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InvokeAI
Project homepage: https://github.com/invoke-ai/InvokeAI
Installation on Windows:
NOTE: You might need to enable Windows Long Paths. If you're not sure,
then you almost certainly need to. Simply double-click the 'WinLongPathsEnabled.reg'
file. Note that you will need to have admin privileges in order to
do this.
Please double-click the 'install.bat' file (while keeping it inside the invokeAI folder).
Installation on Linux and Mac:
Please open the terminal, and run './install.sh' (while keeping it inside the invokeAI folder).
After installation, please run the 'invoke.bat' file (on Windows) or 'invoke.sh'
file (on Linux/Mac) to start InvokeAI.

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--prefer-binary
--extra-index-url https://download.pytorch.org/whl/torch_stable.html
--extra-index-url https://download.pytorch.org/whl/cu116
--trusted-host https://download.pytorch.org
accelerate~=0.15
albumentations
diffusers[torch]~=0.11
einops
eventlet
flask_cors
flask_socketio
flaskwebgui==1.0.3
getpass_asterisk
imageio-ffmpeg
pyreadline3
realesrgan
send2trash
streamlit
taming-transformers-rom1504
test-tube
torch-fidelity
torch==1.12.1 ; platform_system == 'Darwin'
torch==1.12.0+cu116 ; platform_system == 'Linux' or platform_system == 'Windows'
torchvision==0.13.1 ; platform_system == 'Darwin'
torchvision==0.13.0+cu116 ; platform_system == 'Linux' or platform_system == 'Windows'
transformers
picklescan
https://github.com/openai/CLIP/archive/d50d76daa670286dd6cacf3bcd80b5e4823fc8e1.zip
https://github.com/invoke-ai/clipseg/archive/1f754751c85d7d4255fa681f4491ff5711c1c288.zip
https://github.com/invoke-ai/GFPGAN/archive/3f5d2397361199bc4a91c08bb7d80f04d7805615.zip ; platform_system=='Windows'
https://github.com/invoke-ai/GFPGAN/archive/c796277a1cf77954e5fc0b288d7062d162894248.zip ; platform_system=='Linux' or platform_system=='Darwin'
https://github.com/Birch-san/k-diffusion/archive/363386981fee88620709cf8f6f2eea167bd6cd74.zip
https://github.com/invoke-ai/PyPatchMatch/archive/129863937a8ab37f6bbcec327c994c0f932abdbc.zip

238
docs/CHANGELOG.md
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@ -4,236 +4,6 @@ title: Changelog
# :octicons-log-16: **Changelog**
## v2.3.5 <small>(22 May 2023)</small>
This release (along with the post1 and post2 follow-on releases) expands support for additional LoRA and LyCORIS models, upgrades diffusers versions, and fixes a few bugs.
### LoRA and LyCORIS Support Improvement
A number of LoRA/LyCORIS fine-tune files (those which alter the text encoder as well as the unet model) were not having the desired effect in InvokeAI. This bug has now been fixed. Full documentation of LoRA support is available at InvokeAI LoRA Support.
Previously, InvokeAI did not distinguish between LoRA/LyCORIS models based on Stable Diffusion v1.5 vs those based on v2.0 and 2.1, leading to a crash when an incompatible model was loaded. This has now been fixed. In addition, the web pulldown menus for LoRA and Textual Inversion selection have been enhanced to show only those files that are compatible with the currently-selected Stable Diffusion model.
Support for the newer LoKR LyCORIS files has been added.
### Library Updates and Speed/Reproducibility Advancements
The major enhancement in this version is that NVIDIA users no longer need to decide between speed and reproducibility. Previously, if you activated the Xformers library, you would see improvements in speed and memory usage, but multiple images generated with the same seed and other parameters would be slightly different from each other. This is no longer the case. Relative to 2.3.5 you will see improved performance when running without Xformers, and even better performance when Xformers is activated. In both cases, images generated with the same settings will be identical.
Here are the new library versions:
Library Version
Torch 2.0.0
Diffusers 0.16.1
Xformers 0.0.19
Compel 1.1.5
Other Improvements
### Performance Improvements
When a model is loaded for the first time, InvokeAI calculates its checksum for incorporation into the PNG metadata. This process could take up to a minute on network-mounted disks and WSL mounts. This release noticeably speeds up the process.
### Bug Fixes
The "import models from directory" and "import from URL" functionality in the console-based model installer has now been fixed.
When running the WebUI, we have reduced the number of times that InvokeAI reaches out to HuggingFace to fetch the list of embeddable Textual Inversion models. We have also caught and fixed a problem with the updater not correctly detecting when another instance of the updater is running
## v2.3.4 <small>(7 April 2023)</small>
What's New in 2.3.4
This features release adds support for LoRA (Low-Rank Adaptation) and LyCORIS (Lora beYond Conventional) models, as well as some minor bug fixes.
### LoRA and LyCORIS Support
LoRA files contain fine-tuning weights that enable particular styles, subjects or concepts to be applied to generated images. LyCORIS files are an extended variant of LoRA. InvokeAI supports the most common LoRA/LyCORIS format, which ends in the suffix .safetensors. You will find numerous LoRA and LyCORIS models for download at Civitai, and a small but growing number at Hugging Face. Full documentation of LoRA support is available at InvokeAI LoRA Support.( Pre-release note: this page will only be available after release)
To use LoRA/LyCORIS models in InvokeAI:
Download the .safetensors files of your choice and place in /path/to/invokeai/loras. This directory was not present in earlier version of InvokeAI but will be created for you the first time you run the command-line or web client. You can also create the directory manually.
Add withLora(lora-file,weight) to your prompts. The weight is optional and will default to 1.0. A few examples, assuming that a LoRA file named loras/sushi.safetensors is present:
family sitting at dinner table eating sushi withLora(sushi,0.9)
family sitting at dinner table eating sushi withLora(sushi, 0.75)
family sitting at dinner table eating sushi withLora(sushi)
Multiple withLora() prompt fragments are allowed. The weight can be arbitrarily large, but the useful range is roughly 0.5 to 1.0. Higher weights make the LoRA's influence stronger. Negative weights are also allowed, which can lead to some interesting effects.
Generate as you usually would! If you find that the image is too "crisp" try reducing the overall CFG value or reducing individual LoRA weights. As is the case with all fine-tunes, you'll get the best results when running the LoRA on top of the model similar to, or identical with, the one that was used during the LoRA's training. Don't try to load a SD 1.x-trained LoRA into a SD 2.x model, and vice versa. This will trigger a non-fatal error message and generation will not proceed.
You can change the location of the loras directory by passing the --lora_directory option to `invokeai.
### New WebUI LoRA and Textual Inversion Buttons
This version adds two new web interface buttons for inserting LoRA and Textual Inversion triggers into the prompt as shown in the screenshot below.
Clicking on one or the other of the buttons will bring up a menu of available LoRA/LyCORIS or Textual Inversion trigger terms. Select a menu item to insert the properly-formatted withLora() or <textual-inversion> prompt fragment into the positive prompt. The number in parentheses indicates the number of trigger terms currently in the prompt. You may click the button again and deselect the LoRA or trigger to remove it from the prompt, or simply edit the prompt directly.
Currently terms are inserted into the positive prompt textbox only. However, some textual inversion embeddings are designed to be used with negative prompts. To move a textual inversion trigger into the negative prompt, simply cut and paste it.
By default the Textual Inversion menu only shows locally installed models found at startup time in /path/to/invokeai/embeddings. However, InvokeAI has the ability to dynamically download and install additional Textual Inversion embeddings from the HuggingFace Concepts Library. You may choose to display the most popular of these (with five or more likes) in the Textual Inversion menu by going to Settings and turning on "Show Textual Inversions from HF Concepts Library." When this option is activated, the locally-installed TI embeddings will be shown first, followed by uninstalled terms from Hugging Face. See The Hugging Face Concepts Library and Importing Textual Inversion files for more information.
### Minor features and fixes
This release changes model switching behavior so that the command-line and Web UIs save the last model used and restore it the next time they are launched. It also improves the behavior of the installer so that the pip utility is kept up to date.
### Known Bugs in 2.3.4
These are known bugs in the release.
The Ancestral DPMSolverMultistepScheduler (k_dpmpp_2a) sampler is not yet implemented for diffusers models and will disappear from the WebUI Sampler menu when a diffusers model is selected.
Windows Defender will sometimes raise Trojan or backdoor alerts for the codeformer.pth face restoration model, as well as the CIDAS/clipseg and runwayml/stable-diffusion-v1.5 models. These are false positives and can be safely ignored. InvokeAI performs a malware scan on all models as they are loaded. For additional security, you should use safetensors models whenever they are available.
## v2.3.3 <small>(28 March 2023)</small>
This is a bugfix and minor feature release.
### Bugfixes
Since version 2.3.2 the following bugs have been fixed:
Bugs
When using legacy checkpoints with an external VAE, the VAE file is now scanned for malware prior to loading. Previously only the main model weights file was scanned.
Textual inversion will select an appropriate batchsize based on whether xformers is active, and will default to xformers enabled if the library is detected.
The batch script log file names have been fixed to be compatible with Windows.
Occasional corruption of the .next_prefix file (which stores the next output file name in sequence) on Windows systems is now detected and corrected.
Support loading of legacy config files that have no personalization (textual inversion) section.
An infinite loop when opening the developer's console from within the invoke.sh script has been corrected.
Documentation fixes, including a recipe for detecting and fixing problems with the AMD GPU ROCm driver.
Enhancements
It is now possible to load and run several community-contributed SD-2.0 based models, including the often-requested "Illuminati" model.
The "NegativePrompts" embedding file, and others like it, can now be loaded by placing it in the InvokeAI embeddings directory.
If no --model is specified at launch time, InvokeAI will remember the last model used and restore it the next time it is launched.
On Linux systems, the invoke.sh launcher now uses a prettier console-based interface. To take advantage of it, install the dialog package using your package manager (e.g. sudo apt install dialog).
When loading legacy models (safetensors/ckpt) you can specify a custom config file and/or a VAE by placing like-named files in the same directory as the model following this example:
my-favorite-model.ckpt
my-favorite-model.yaml
my-favorite-model.vae.pt # or my-favorite-model.vae.safetensors
### Known Bugs in 2.3.3
These are known bugs in the release.
The Ancestral DPMSolverMultistepScheduler (k_dpmpp_2a) sampler is not yet implemented for diffusers models and will disappear from the WebUI Sampler menu when a diffusers model is selected.
Windows Defender will sometimes raise Trojan or backdoor alerts for the codeformer.pth face restoration model, as well as the CIDAS/clipseg and runwayml/stable-diffusion-v1.5 models. These are false positives and can be safely ignored. InvokeAI performs a malware scan on all models as they are loaded. For additional security, you should use safetensors models whenever they are available.
## v2.3.2 <small>(11 March 2023)</small>
This is a bugfix and minor feature release.
### Bugfixes
Since version 2.3.1 the following bugs have been fixed:
Black images appearing for potential NSFW images when generating with legacy checkpoint models and both --no-nsfw_checker and --ckpt_convert turned on.
Black images appearing when generating from models fine-tuned on Stable-Diffusion-2-1-base. When importing V2-derived models, you may be asked to select whether the model was derived from a "base" model (512 pixels) or the 768-pixel SD-2.1 model.
The "Use All" button was not restoring the Hi-Res Fix setting on the WebUI
When using the model installer console app, models failed to import correctly when importing from directories with spaces in their names. A similar issue with the output directory was also fixed.
Crashes that occurred during model merging.
Restore previous naming of Stable Diffusion base and 768 models.
Upgraded to latest versions of diffusers, transformers, safetensors and accelerate libraries upstream. We hope that this will fix the assertion NDArray > 2**32 issue that MacOS users have had when generating images larger than 768x768 pixels. Please report back.
As part of the upgrade to diffusers, the location of the diffusers-based models has changed from models/diffusers to models/hub. When you launch InvokeAI for the first time, it will prompt you to OK a one-time move. This should be quick and harmless, but if you have modified your models/diffusers directory in some way, for example using symlinks, you may wish to cancel the migration and make appropriate adjustments.
New "Invokeai-batch" script
### Invoke AI Batch
2.3.2 introduces a new command-line only script called invokeai-batch that can be used to generate hundreds of images from prompts and settings that vary systematically. This can be used to try the same prompt across multiple combinations of models, steps, CFG settings and so forth. It also allows you to template prompts and generate a combinatorial list like:
a shack in the mountains, photograph
a shack in the mountains, watercolor
a shack in the mountains, oil painting
a chalet in the mountains, photograph
a chalet in the mountains, watercolor
a chalet in the mountains, oil painting
a shack in the desert, photograph
...
If you have a system with multiple GPUs, or a single GPU with lots of VRAM, you can parallelize generation across the combinatorial set, reducing wait times and using your system's resources efficiently (make sure you have good GPU cooling).
To try invokeai-batch out. Launch the "developer's console" using the invoke launcher script, or activate the invokeai virtual environment manually. From the console, give the command invokeai-batch --help in order to learn how the script works and create your first template file for dynamic prompt generation.
### Known Bugs in 2.3.2
These are known bugs in the release.
The Ancestral DPMSolverMultistepScheduler (k_dpmpp_2a) sampler is not yet implemented for diffusers models and will disappear from the WebUI Sampler menu when a diffusers model is selected.
Windows Defender will sometimes raise a Trojan alert for the codeformer.pth face restoration model. As far as we have been able to determine, this is a false positive and can be safely whitelisted.
## v2.3.1 <small>(22 February 2023)</small>
This is primarily a bugfix release, but it does provide several new features that will improve the user experience.
### Enhanced support for model management
InvokeAI now makes it convenient to add, remove and modify models. You can individually import models that are stored on your local system, scan an entire folder and its subfolders for models and import them automatically, and even directly import models from the internet by providing their download URLs. You also have the option of designating a local folder to scan for new models each time InvokeAI is restarted.
There are three ways of accessing the model management features:
From the WebUI, click on the cube to the right of the model selection menu. This will bring up a form that allows you to import models individually from your local disk or scan a directory for models to import.
Using the Model Installer App
Choose option (5) download and install models from the invoke launcher script to start a new console-based application for model management. You can use this to select from a curated set of starter models, or import checkpoint, safetensors, and diffusers models from a local disk or the internet. The example below shows importing two checkpoint URLs from popular SD sites and a HuggingFace diffusers model using its Repository ID. It also shows how to designate a folder to be scanned at startup time for new models to import.
Command-line users can start this app using the command invokeai-model-install.
Using the Command Line Client (CLI)
The !install_model and !convert_model commands have been enhanced to allow entering of URLs and local directories to scan and import. The first command installs .ckpt and .safetensors files as-is. The second one converts them into the faster diffusers format before installation.
Internally InvokeAI is able to probe the contents of a .ckpt or .safetensors file to distinguish among v1.x, v2.x and inpainting models. This means that you do not need to include "inpaint" in your model names to use an inpainting model. Note that Stable Diffusion v2.x models will be autoconverted into a diffusers model the first time you use it.
Please see INSTALLING MODELS for more information on model management.
### An Improved Installer Experience
The installer now launches a console-based UI for setting and changing commonly-used startup options:
After selecting the desired options, the installer installs several support models needed by InvokeAI's face reconstruction and upscaling features and then launches the interface for selecting and installing models shown earlier. At any time, you can edit the startup options by launching invoke.sh/invoke.bat and entering option (6) change InvokeAI startup options
Command-line users can launch the new configure app using invokeai-configure.
This release also comes with a renewed updater. To do an update without going through a whole reinstallation, launch invoke.sh or invoke.bat and choose option (9) update InvokeAI . This will bring you to a screen that prompts you to update to the latest released version, to the most current development version, or any released or unreleased version you choose by selecting the tag or branch of the desired version.
Command-line users can run this interface by typing invokeai-configure
### Image Symmetry Options
There are now features to generate horizontal and vertical symmetry during generation. The way these work is to wait until a selected step in the generation process and then to turn on a mirror image effect. In addition to generating some cool images, you can also use this to make side-by-side comparisons of how an image will look with more or fewer steps. Access this option from the WebUI by selecting Symmetry from the image generation settings, or within the CLI by using the options --h_symmetry_time_pct and --v_symmetry_time_pct (these can be abbreviated to --h_sym and --v_sym like all other options).
### A New Unified Canvas Look
This release introduces a beta version of the WebUI Unified Canvas. To try it out, open up the settings dialogue in the WebUI (gear icon) and select Use Canvas Beta Layout:
Refresh the screen and go to to Unified Canvas (left side of screen, third icon from the top). The new layout is designed to provide more space to work in and to keep the image controls close to the image itself:
Model conversion and merging within the WebUI
The WebUI now has an intuitive interface for model merging, as well as for permanent conversion of models from legacy .ckpt/.safetensors formats into diffusers format. These options are also available directly from the invoke.sh/invoke.bat scripts.
An easier way to contribute translations to the WebUI
We have migrated our translation efforts to Weblate, a FOSS translation product. Maintaining the growing project's translations is now far simpler for the maintainers and community. Please review our brief translation guide for more information on how to contribute.
Numerous internal bugfixes and performance issues
### Bug Fixes
This releases quashes multiple bugs that were reported in 2.3.0. Major internal changes include upgrading to diffusers 0.13.0, and using the compel library for prompt parsing. See Detailed Change Log for a detailed list of bugs caught and squished.
Summary of InvokeAI command line scripts (all accessible via the launcher menu)
Command Description
invokeai Command line interface
invokeai --web Web interface
invokeai-model-install Model installer with console forms-based front end
invokeai-ti --gui Textual inversion, with a console forms-based front end
invokeai-merge --gui Model merging, with a console forms-based front end
invokeai-configure Startup configuration; can also be used to reinstall support models
invokeai-update InvokeAI software updater
### Known Bugs in 2.3.1
These are known bugs in the release.
MacOS users generating 768x768 pixel images or greater using diffusers models may experience a hard crash with assertion NDArray > 2**32 This appears to be an issu...
## v2.3.0 <small>(15 January 2023)</small>
**Transition to diffusers
@ -494,7 +264,7 @@ sections describe what's new for InvokeAI.
[Manual Installation](installation/020_INSTALL_MANUAL.md).
- The ability to save frequently-used startup options (model to load, steps,
sampler, etc) in a `.invokeai` file. See
[Client](deprecated/CLI.md)
[Client](features/CLI.md)
- Support for AMD GPU cards (non-CUDA) on Linux machines.
- Multiple bugs and edge cases squashed.
@ -617,7 +387,7 @@ sections describe what's new for InvokeAI.
- `dream.py` script renamed `invoke.py`. A `dream.py` script wrapper remains for
backward compatibility.
- Completely new WebGUI - launch with `python3 scripts/invoke.py --web`
- Support for [inpainting](deprecated/INPAINTING.md) and
- Support for [inpainting](features/INPAINTING.md) and
[outpainting](features/OUTPAINTING.md)
- img2img runs on all k\* samplers
- Support for
@ -629,7 +399,7 @@ sections describe what's new for InvokeAI.
using facial reconstruction, ESRGAN upscaling, outcropping (similar to DALL-E
infinite canvas), and "embiggen" upscaling. See the `!fix` command.
- New `--hires` option on `invoke>` line allows
[larger images to be created without duplicating elements](deprecated/CLI.md#this-is-an-example-of-txt2img),
[larger images to be created without duplicating elements](features/CLI.md#this-is-an-example-of-txt2img),
at the cost of some performance.
- New `--perlin` and `--threshold` options allow you to add and control
variation during image generation (see
@ -638,7 +408,7 @@ sections describe what's new for InvokeAI.
of images and tweaking of previous settings.
- Command-line completion in `invoke.py` now works on Windows, Linux and Mac
platforms.
- Improved [command-line completion behavior](deprecated/CLI.md) New commands
- Improved [command-line completion behavior](features/CLI.md) New commands
added:
- List command-line history with `!history`
- Search command-line history with `!search`

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## Welcome to Invoke AI
We're thrilled to have you here and we're excited for you to contribute.
Invoke AI originated as a project built by the community, and that vision carries forward today as we aim to build the best pro-grade tools available. We work together to incorporate the latest in AI/ML research, making these tools available in over 20 languages to artists and creatives around the world as part of our fully permissive OSS project designed for individual users to self-host and use.
Here are some guidelines to help you get started:
### Technical Prerequisites
Front-end: You'll need a working knowledge of React and TypeScript.
Back-end: Depending on the scope of your contribution, you may need to know SQLite, FastAPI, Python, and Socketio. Also, a good majority of the backend logic involved in processing images is built in a modular way using a concept called "Nodes", which are isolated functions that carry out individual, discrete operations. This design allows for easy contributions of novel pipelines and capabilities.
### How to Submit Contributions
To start contributing, please follow these steps:
1. Familiarize yourself with our roadmap and open projects to see where your skills and interests align. These documents can serve as a source of inspiration.
2. Open a Pull Request (PR) with a clear description of the feature you're adding or the problem you're solving. Make sure your contribution aligns with the project's vision.
3. Adhere to general best practices. This includes assuming interoperability with other nodes, keeping the scope of your functions as small as possible, and organizing your code according to our architecture documents.
### Types of Contributions We're Looking For
We welcome all contributions that improve the project. Right now, we're especially looking for:
1. Quality of life (QOL) enhancements on the front-end.
2. New backend capabilities added through nodes.
3. Incorporating additional optimizations from the broader open-source software community.
### Communication and Decision-making Process
Project maintainers and code owners review PRs to ensure they align with the project's goals. They may provide design or architectural guidance, suggestions on user experience, or provide more significant feedback on the contribution itself. Expect to receive feedback on your submissions, and don't hesitate to ask questions or propose changes.
For more robust discussions, or if you're planning to add capabilities not currently listed on our roadmap, please reach out to us on our Discord server. That way, we can ensure your proposed contribution aligns with the project's direction before you start writing code.
### Code of Conduct and Contribution Expectations
We want everyone in our community to have a positive experience. To facilitate this, we've established a code of conduct and a statement of values that we expect all contributors to adhere to. Please take a moment to review these documents—they're essential to maintaining a respectful and inclusive environment.
By making a contribution to this project, you certify that:
1. The contribution was created in whole or in part by you and you have the right to submit it under the open-source license indicated in this projects GitHub repository; or
2. The contribution is based upon previous work that, to the best of your knowledge, is covered under an appropriate open-source license and you have the right under that license to submit that work with modifications, whether created in whole or in part by you, under the same open-source license (unless you are permitted to submit under a different license); or
3. The contribution was provided directly to you by some other person who certified (1) or (2) and you have not modified it; or
4. You understand and agree that this project and the contribution are public and that a record of the contribution (including all personal information you submit with it, including your sign-off) is maintained indefinitely and may be redistributed consistent with this project or the open-source license(s) involved.
This disclaimer is not a license and does not grant any rights or permissions. You must obtain necessary permissions and licenses, including from third parties, before contributing to this project.
This disclaimer is provided "as is" without warranty of any kind, whether expressed or implied, including but not limited to the warranties of merchantability, fitness for a particular purpose, or non-infringement. In no event shall the authors or copyright holders be liable for any claim, damages, or other liability, whether in an action of contract, tort, or otherwise, arising from, out of, or in connection with the contribution or the use or other dealings in the contribution.
---
Remember, your contributions help make this project great. We're excited to see what you'll bring to our community!

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@ -19,56 +19,31 @@ An invocation looks like this:
```py
class UpscaleInvocation(BaseInvocation):
"""Upscales an image."""
# fmt: off
type: Literal["upscale"] = "upscale"
type: Literal['upscale'] = 'upscale'
# Inputs
image: Union[ImageField, None] = Field(description="The input image", default=None)
strength: float = Field(default=0.75, gt=0, le=1, description="The strength")
level: Literal[2, 4] = Field(default=2, description="The upscale level")
# fmt: on
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["upscaling", "image"],
},
}
image: Union[ImageField,None] = Field(description="The input image")
strength: float = Field(default=0.75, gt=0, le=1, description="The strength")
level: Literal[2,4] = Field(default=2, description = "The upscale level")
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(
self.image.image_origin, self.image.image_name
)
results = context.services.restoration.upscale_and_reconstruct(
image_list=[[image, 0]],
upscale=(self.level, self.strength),
strength=0.0, # GFPGAN strength
save_original=False,
image_callback=None,
image = context.services.images.get(self.image.image_type, self.image.image_name)
results = context.services.generate.upscale_and_reconstruct(
image_list = [[image, 0]],
upscale = (self.level, self.strength),
strength = 0.0, # GFPGAN strength
save_original = False,
image_callback = None,
)
# Results are image and seed, unwrap for now
# TODO: can this return multiple results?
image_dto = context.services.images.create(
image=results[0][0],
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
image_type = ImageType.RESULT
image_name = context.services.images.create_name(context.graph_execution_state_id, self.id)
context.services.images.save(image_type, image_name, results[0][0])
return ImageOutput(
image=ImageField(
image_name=image_dto.image_name,
image_origin=image_dto.image_origin,
),
width=image_dto.width,
height=image_dto.height,
image = ImageField(image_type = image_type, image_name = image_name)
)
```
Each portion is important to implement correctly.
@ -120,67 +95,25 @@ Finally, note that for all linking, the `type` of the linked fields must match.
If the `name` also matches, then the field can be **automatically linked** to a
previous invocation by name and matching.
### Config
```py
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["upscaling", "image"],
},
}
```
This is an optional configuration for the invocation. It inherits from
pydantic's model `Config` class, and it used primarily to customize the
autogenerated OpenAPI schema.
The UI relies on the OpenAPI schema in two ways:
- An API client & Typescript types are generated from it. This happens at build
time.
- The node editor parses the schema into a template used by the UI to create the
node editor UI. This parsing happens at runtime.
In this example, a `ui` key has been added to the `schema_extra` dict to provide
some tags for the UI, to facilitate filtering nodes.
See the Schema Generation section below for more information.
### Invoke Function
```py
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(
self.image.image_origin, self.image.image_name
)
results = context.services.restoration.upscale_and_reconstruct(
image_list=[[image, 0]],
upscale=(self.level, self.strength),
strength=0.0, # GFPGAN strength
save_original=False,
image_callback=None,
image = context.services.images.get(self.image.image_type, self.image.image_name)
results = context.services.generate.upscale_and_reconstruct(
image_list = [[image, 0]],
upscale = (self.level, self.strength),
strength = 0.0, # GFPGAN strength
save_original = False,
image_callback = None,
)
# Results are image and seed, unwrap for now
# TODO: can this return multiple results?
image_dto = context.services.images.create(
image=results[0][0],
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
image_type = ImageType.RESULT
image_name = context.services.images.create_name(context.graph_execution_state_id, self.id)
context.services.images.save(image_type, image_name, results[0][0])
return ImageOutput(
image=ImageField(
image_name=image_dto.image_name,
image_origin=image_dto.image_origin,
),
width=image_dto.width,
height=image_dto.height,
image = ImageField(image_type = image_type, image_name = image_name)
)
```
@ -202,16 +135,9 @@ scenarios. If you need functionality, please provide it as a service in the
```py
class ImageOutput(BaseInvocationOutput):
"""Base class for invocations that output an image"""
type: Literal['image'] = 'image'
# fmt: off
type: Literal["image_output"] = "image_output"
image: ImageField = Field(default=None, description="The output image")
width: int = Field(description="The width of the image in pixels")
height: int = Field(description="The height of the image in pixels")
# fmt: on
class Config:
schema_extra = {"required": ["type", "image", "width", "height"]}
image: ImageField = Field(default=None, description="The output image")
```
Output classes look like an invocation class without the invoke method. Prefer
@ -242,36 +168,35 @@ Here's that `ImageOutput` class, without the needed schema customisation:
class ImageOutput(BaseInvocationOutput):
"""Base class for invocations that output an image"""
# fmt: off
type: Literal["image_output"] = "image_output"
type: Literal["image"] = "image"
image: ImageField = Field(default=None, description="The output image")
width: int = Field(description="The width of the image in pixels")
height: int = Field(description="The height of the image in pixels")
# fmt: on
```
The OpenAPI schema that results from this `ImageOutput` will have the `type`,
`image`, `width` and `height` properties marked as optional, even though we know
they will always have a value.
The generated OpenAPI schema, and all clients/types generated from it, will have
the `type` and `image` properties marked as optional, even though we know they
will always have a value by the time we can interact with them via the API.
Here's the same class, but with the schema customisation added:
```python
class ImageOutput(BaseInvocationOutput):
"""Base class for invocations that output an image"""
# fmt: off
type: Literal["image_output"] = "image_output"
type: Literal["image"] = "image"
image: ImageField = Field(default=None, description="The output image")
width: int = Field(description="The width of the image in pixels")
height: int = Field(description="The height of the image in pixels")
# fmt: on
# Add schema customization
class Config:
schema_extra = {"required": ["type", "image", "width", "height"]}
schema_extra = {
'required': [
'type',
'image',
]
}
```
With the customization in place, the schema will now show these properties as
required, obviating the need for extensive null checks in client code.
The resultant schema (and any API client or types generated from it) will now
have see `type` as string literal `"image"` and `image` as an `ImageField`
object.
See this `pydantic` issue for discussion on this solution:
<https://github.com/pydantic/pydantic/discussions/4577>

10
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@ -205,14 +205,14 @@ Here are the invoke> command that apply to txt2img:
| `--seamless` | | `False` | Activate seamless tiling for interesting effects |
| `--seamless_axes` | | `x,y` | Specify which axes to use circular convolution on. |
| `--log_tokenization` | `-t` | `False` | Display a color-coded list of the parsed tokens derived from the prompt |
| `--skip_normalization` | `-x` | `False` | Weighted subprompts will not be normalized. See [Weighted Prompts](../features/OTHER.md#weighted-prompts) |
| `--skip_normalization` | `-x` | `False` | Weighted subprompts will not be normalized. See [Weighted Prompts](./OTHER.md#weighted-prompts) |
| `--upscale <int> <float>` | `-U <int> <float>` | `-U 1 0.75` | Upscale image by magnification factor (2, 4), and set strength of upscaling (0.0-1.0). If strength not set, will default to 0.75. |
| `--facetool_strength <float>` | `-G <float> ` | `-G0` | Fix faces (defaults to using the GFPGAN algorithm); argument indicates how hard the algorithm should try (0.0-1.0) |
| `--facetool <name>` | `-ft <name>` | `-ft gfpgan` | Select face restoration algorithm to use: gfpgan, codeformer |
| `--codeformer_fidelity` | `-cf <float>` | `0.75` | Used along with CodeFormer. Takes values between 0 and 1. 0 produces high quality but low accuracy. 1 produces high accuracy but low quality |
| `--save_original` | `-save_orig` | `False` | When upscaling or fixing faces, this will cause the original image to be saved rather than replaced. |
| `--variation <float>` | `-v<float>` | `0.0` | Add a bit of noise (0.0=none, 1.0=high) to the image in order to generate a series of variations. Usually used in combination with `-S<seed>` and `-n<int>` to generate a series a riffs on a starting image. See [Variations](../features/VARIATIONS.md). |
| `--with_variations <pattern>` | | `None` | Combine two or more variations. See [Variations](../features/VARIATIONS.md) for now to use this. |
| `--variation <float>` | `-v<float>` | `0.0` | Add a bit of noise (0.0=none, 1.0=high) to the image in order to generate a series of variations. Usually used in combination with `-S<seed>` and `-n<int>` to generate a series a riffs on a starting image. See [Variations](./VARIATIONS.md). |
| `--with_variations <pattern>` | | `None` | Combine two or more variations. See [Variations](./VARIATIONS.md) for now to use this. |
| `--save_intermediates <n>` | | `None` | Save the image from every nth step into an "intermediates" folder inside the output directory |
| `--h_symmetry_time_pct <float>` | | `None` | Create symmetry along the X axis at the desired percent complete of the generation process. (Must be between 0.0 and 1.0; set to a very small number like 0.0001 for just after the first step of generation.) |
| `--v_symmetry_time_pct <float>` | | `None` | Create symmetry along the Y axis at the desired percent complete of the generation process. (Must be between 0.0 and 1.0; set to a very small number like 0.0001 for just after the first step of generation.) |
@ -257,7 +257,7 @@ additional options:
by `-M`. You may also supply just a single initial image with the areas
to overpaint made transparent, but you must be careful not to destroy
the pixels underneath when you create the transparent areas. See
[Inpainting](INPAINTING.md) for details.
[Inpainting](./INPAINTING.md) for details.
inpainting accepts all the arguments used for txt2img and img2img, as well as
the --mask (-M) and --text_mask (-tm) arguments:
@ -297,7 +297,7 @@ invoke> a piece of cake -I /path/to/breakfast.png -tm bagel 0.6
You can load and use hundreds of community-contributed Textual
Inversion models just by typing the appropriate trigger phrase. Please
see [Concepts Library](../features/CONCEPTS.md) for more details.
see [Concepts Library](CONCEPTS.md) for more details.
## Other Commands

59
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@ -65,21 +65,39 @@ find out what each concept is for, you can browse the
[Hugging Face concepts library](https://huggingface.co/sd-concepts-library) and
look at examples of what each concept produces.
To load concepts, you will need to open the Web UI's configuration
dialogue and activate "Show Textual Inversions from HF Concepts
Library". This will then add a list of HF Concepts to the dropdown
"Add Textual Inversion" menu. Select the concept(s) of your choice and
they will be incorporated into the positive prompt. A few concepts are
designed for the negative prompt, in which case you can add them to
the negative prompt box by select the down arrow icon next to the
textual inversion menu.
When you have an idea of a concept you wish to try, go to the command-line
client (CLI) and type a `<` character and the beginning of the Hugging Face
concept name you wish to load. Press ++tab++, and the CLI will show you all
matching concepts. You can also type `<` and hit ++tab++ to get a listing of all
~800 concepts, but be prepared to scroll up to see them all! If there is more
than one match you can continue to type and ++tab++ until the concept is
completed.
There are nearly 1000 HF concepts, more than will fit into a menu. For
this reason we only show the most popular concepts (those which have
received 5 or more likes). If you wish to use a concept that is not on
the list, you may simply type its name surrounded by brackets. For
example, to load the concept named "xidiversity", add `<xidiversity>`
to the positive or negative prompt text.
!!! example
if you type in `<x` and hit ++tab++, you'll be prompted with the completions:
```py
<xatu2> <xatu> <xbh> <xi> <xidiversity> <xioboma> <xuna> <xyz>
```
Now type `id` and press ++tab++. It will be autocompleted to `<xidiversity>`
because this is a unique match.
Finish your prompt and generate as usual. You may include multiple concept terms
in the prompt.
If you have never used this concept before, you will see a message that the TI
model is being downloaded and installed. After this, the concept will be saved
locally (in the `models/sd-concepts-library` directory) for future use.
Several steps happen during downloading and installation, including a scan of
the file for malicious code. Should any errors occur, you will be warned and the
concept will fail to load. Generation will then continue treating the trigger
term as a normal string of characters (e.g. as literal `<ghibli-face>`).
You can also use `<concept-names>` in the WebGUI's prompt textbox. There is no
autocompletion at this time.
## Installing your Own TI Files
@ -94,11 +112,18 @@ At startup time, InvokeAI will scan the `embeddings` directory and load any TI
files it finds there. At startup you will see a message similar to this one:
```bash
>> Current embedding manager terms: <HOI4-Leader>, <princess-knight>
>> Current embedding manager terms: *, <HOI4-Leader>, <princess-knight>
```
The terms you can use will appear in the "Add Textual Inversion"
dropdown menu above the HF Concepts.
Note the `*` trigger term. This is a placeholder term that many early TI
tutorials taught people to use rather than a more descriptive term.
Unfortunately, if you have multiple TI files that all use this term, only the
first one loaded will be triggered by use of the term.
To avoid this problem, you can use the `merge_embeddings.py` script to merge two
or more TI files together. If it encounters a collision of terms, the script
will prompt you to select new terms that do not collide. See
[Textual Inversion](TEXTUAL_INVERSION.md) for details.
## Further Reading

92
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@ -1,92 +0,0 @@
---
title: ControlNet
---
# :material-loupe: ControlNet
## ControlNet
ControlNet
ControlNet is a powerful set of features developed by the open-source community (notably, Stanford researcher [**@ilyasviel**](https://github.com/lllyasviel)) that allows you to apply a secondary neural network model to your image generation process in Invoke.
With ControlNet, you can get more control over the output of your image generation, providing you with a way to direct the network towards generating images that better fit your desired style or outcome.
### How it works
ControlNet works by analyzing an input image, pre-processing that image to identify relevant information that can be interpreted by each specific ControlNet model, and then inserting that control information into the generation process. This can be used to adjust the style, composition, or other aspects of the image to better achieve a specific result.
### Models
As part of the model installation, ControlNet models can be selected including a variety of pre-trained models that have been added to achieve different effects or styles in your generated images. Further ControlNet models may require additional code functionality to also be incorporated into Invoke's Invocations folder. You should expect to follow any installation instructions for ControlNet models loaded outside the default models provided by Invoke. The default models include:
**Canny**:
When the Canny model is used in ControlNet, Invoke will attempt to generate images that match the edges detected.
Canny edge detection works by detecting the edges in an image by looking for abrupt changes in intensity. It is known for its ability to detect edges accurately while reducing noise and false edges, and the preprocessor can identify more information by decreasing the thresholds.
**M-LSD**:
M-LSD is another edge detection algorithm used in ControlNet. It stands for Multi-Scale Line Segment Detector.
It detects straight line segments in an image by analyzing the local structure of the image at multiple scales. It can be useful for architectural imagery, or anything where straight-line structural information is needed for the resulting output.
**Lineart**:
The Lineart model in ControlNet generates line drawings from an input image. The resulting pre-processed image is a simplified version of the original, with only the outlines of objects visible.The Lineart model in ControlNet is known for its ability to accurately capture the contours of the objects in an input sketch.
**Lineart Anime**:
A variant of the Lineart model that generates line drawings with a distinct style inspired by anime and manga art styles.
**Depth**:
A model that generates depth maps of images, allowing you to create more realistic 3D models or to simulate depth effects in post-processing.
**Normal Map (BAE):**
A model that generates normal maps from input images, allowing for more realistic lighting effects in 3D rendering.
**Image Segmentation**:
A model that divides input images into segments or regions, each of which corresponds to a different object or part of the image. (More details coming soon)
**Openpose**:
The OpenPose control model allows for the identification of the general pose of a character by pre-processing an existing image with a clear human structure. With advanced options, Openpose can also detect the face or hands in the image.
**Mediapipe Face**:
The MediaPipe Face identification processor is able to clearly identify facial features in order to capture vivid expressions of human faces.
**Tile (experimental)**:
The Tile model fills out details in the image to match the image, rather than the prompt. The Tile Model is a versatile tool that offers a range of functionalities. Its primary capabilities can be boiled down to two main behaviors:
- It can reinterpret specific details within an image and create fresh, new elements.
- It has the ability to disregard global instructions if there's a discrepancy between them and the local context or specific parts of the image. In such cases, it uses the local context to guide the process.
The Tile Model can be a powerful tool in your arsenal for enhancing image quality and details. If there are undesirable elements in your images, such as blurriness caused by resizing, this model can effectively eliminate these issues, resulting in cleaner, crisper images. Moreover, it can generate and add refined details to your images, improving their overall quality and appeal.
**Pix2Pix (experimental)**
With Pix2Pix, you can input an image into the controlnet, and then "instruct" the model to change it using your prompt. For example, you can say "Make it winter" to add more wintry elements to a scene.
**Inpaint**: Coming Soon - Currently this model is available but not functional on the Canvas. An upcoming release will provide additional capabilities for using this model when inpainting.
Each of these models can be adjusted and combined with other ControlNet models to achieve different results, giving you even more control over your image generation process.
## Using ControlNet
To use ControlNet, you can simply select the desired model and adjust both the ControlNet and Pre-processor settings to achieve the desired result. You can also use multiple ControlNet models at the same time, allowing you to achieve even more complex effects or styles in your generated images.
Each ControlNet has two settings that are applied to the ControlNet.
Weight - Strength of the Controlnet model applied to the generation for the section, defined by start/end.
Start/End - 0 represents the start of the generation, 1 represents the end. The Start/end setting controls what steps during the generation process have the ControlNet applied.
Additionally, each ControlNet section can be expanded in order to manipulate settings for the image pre-processor that adjusts your uploaded image before using it in when you Invoke.

0
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@ -4,13 +4,86 @@ title: Image-to-Image
# :material-image-multiple: Image-to-Image
InvokeAI provides an "img2img" feature that lets you seed your
creations with an initial drawing or photo. This is a really cool
feature that tells stable diffusion to build the prompt on top of the
image you provide, preserving the original's basic shape and layout.
Both the Web and command-line interfaces provide an "img2img" feature
that lets you seed your creations with an initial drawing or
photo. This is a really cool feature that tells stable diffusion to
build the prompt on top of the image you provide, preserving the
original's basic shape and layout.
For a walkthrough of using Image-to-Image in the Web UI, see [InvokeAI
Web Server](./WEB.md#image-to-image).
See the [WebUI Guide](WEB.md) for a walkthrough of the img2img feature
in the InvokeAI web server. This document describes how to use img2img
in the command-line tool.
## Basic Usage
Launch the command-line client by launching `invoke.sh`/`invoke.bat`
and choosing option (1). Alternative, activate the InvokeAI
environment and issue the command `invokeai`.
Once the `invoke> ` prompt appears, you can start an img2img render by
pointing to a seed file with the `-I` option as shown here:
!!! example ""
```commandline
tree on a hill with a river, nature photograph, national geographic -I./test-pictures/tree-and-river-sketch.png -f 0.85
```
<figure markdown>
| original image | generated image |
| :------------: | :-------------: |
| ![original-image](https://user-images.githubusercontent.com/50542132/193946000-c42a96d8-5a74-4f8a-b4c3-5213e6cadcce.png){ width=320 } | ![generated-image](https://user-images.githubusercontent.com/111189/194135515-53d4c060-e994-4016-8121-7c685e281ac9.png){ width=320 } |
</figure>
The `--init_img` (`-I`) option gives the path to the seed picture. `--strength`
(`-f`) controls how much the original will be modified, ranging from `0.0` (keep
the original intact), to `1.0` (ignore the original completely). The default is
`0.75`, and ranges from `0.25-0.90` give interesting results. Other relevant
options include `-C` (classification free guidance scale), and `-s` (steps).
Unlike `txt2img`, adding steps will continuously change the resulting image and
it will not converge.
You may also pass a `-v<variation_amount>` option to generate `-n<iterations>`
count variants on the original image. This is done by passing the first
generated image back into img2img the requested number of times. It generates
interesting variants.
Note that the prompt makes a big difference. For example, this slight variation
on the prompt produces a very different image:
<figure markdown>
![](https://user-images.githubusercontent.com/111189/194135220-16b62181-b60c-4248-8989-4834a8fd7fbd.png){ width=320 }
<caption markdown>photograph of a tree on a hill with a river</caption>
</figure>
!!! tip
When designing prompts, think about how the images scraped from the internet were
captioned. Very few photographs will be labeled "photograph" or "photorealistic."
They will, however, be captioned with the publication, photographer, camera model,
or film settings.
If the initial image contains transparent regions, then Stable Diffusion will
only draw within the transparent regions, a process called
[`inpainting`](./INPAINTING.md#creating-transparent-regions-for-inpainting).
However, for this to work correctly, the color information underneath the
transparent needs to be preserved, not erased.
!!! warning "**IMPORTANT ISSUE** "
`img2img` does not work properly on initial images smaller
than 512x512. Please scale your image to at least 512x512 before using it.
Larger images are not a problem, but may run out of VRAM on your GPU card. To
fix this, use the --fit option, which downscales the initial image to fit within
the box specified by width x height:
```
tree on a hill with a river, national geographic -I./test-pictures/big-sketch.png -H512 -W512 --fit
```
## How does it actually work, though?
The main difference between `img2img` and `prompt2img` is the starting point.
While `prompt2img` always starts with pure gaussian noise and progressively
@ -26,6 +99,10 @@ seed `1592514025` develops something like this:
!!! example ""
```bash
invoke> "fire" -s10 -W384 -H384 -S1592514025
```
<figure markdown>
![latent steps](../assets/img2img/000019.steps.png){ width=720 }
</figure>
@ -80,8 +157,17 @@ Diffusion has less chance to refine itself, so the result ends up inheriting all
the problems of my bad drawing.
If you want to try this out yourself, all of these are using a seed of
`1592514025` with a width/height of `384`, step count `10`, the
`k_lms` sampler, and the single-word prompt `"fire"`.
`1592514025` with a width/height of `384`, step count `10`, the default sampler
(`k_lms`), and the single-word prompt `"fire"`:
```bash
invoke> "fire" -s10 -W384 -H384 -S1592514025 -I /tmp/fire-drawing.png --strength 0.7
```
The code for rendering intermediates is on my (damian0815's) branch
[document-img2img](https://github.com/damian0815/InvokeAI/tree/document-img2img) -
run `invoke.py` and check your `outputs/img-samples/intermediates` folder while
generating an image.
### Compensating for the reduced step count
@ -94,6 +180,10 @@ give each generation 20 steps.
Here's strength `0.4` (note step count `50`, which is `20 ÷ 0.4` to make sure SD
does `20` steps from my image):
```bash
invoke> "fire" -s50 -W384 -H384 -S1592514025 -I /tmp/fire-drawing.png -f 0.4
```
<figure markdown>
![000035.1592514025](../assets/img2img/000035.1592514025.png)
</figure>
@ -101,6 +191,10 @@ does `20` steps from my image):
and here is strength `0.7` (note step count `30`, which is roughly `20 ÷ 0.7` to
make sure SD does `20` steps from my image):
```commandline
invoke> "fire" -s30 -W384 -H384 -S1592514025 -I /tmp/fire-drawing.png -f 0.7
```
<figure markdown>
![000046.1592514025](../assets/img2img/000046.1592514025.png)
</figure>

0
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@ -1,171 +0,0 @@
---
title: Controlling Logging
---
# :material-image-off: Controlling Logging
## Controlling How InvokeAI Logs Status Messages
InvokeAI logs status messages using a configurable logging system. You
can log to the terminal window, to a designated file on the local
machine, to the syslog facility on a Linux or Mac, or to a properly
configured web server. You can configure several logs at the same
time, and control the level of message logged and the logging format
(to a limited extent).
Three command-line options control logging:
### `--log_handlers <handler1> <handler2> ...`
This option activates one or more log handlers. Options are "console",
"file", "syslog" and "http". To specify more than one, separate them
by spaces:
```bash
invokeai-web --log_handlers console syslog=/dev/log file=C:\Users\fred\invokeai.log
```
The format of these options is described below.
### `--log_format {plain|color|legacy|syslog}`
This controls the format of log messages written to the console. Only
the "console" log handler is currently affected by this setting.
* "plain" provides formatted messages like this:
```bash
[2023-05-24 23:18:2[2023-05-24 23:18:50,352]::[InvokeAI]::DEBUG --> this is a debug message
[2023-05-24 23:18:50,352]::[InvokeAI]::INFO --> this is an informational messages
[2023-05-24 23:18:50,352]::[InvokeAI]::WARNING --> this is a warning
[2023-05-24 23:18:50,352]::[InvokeAI]::ERROR --> this is an error
[2023-05-24 23:18:50,352]::[InvokeAI]::CRITICAL --> this is a critical error
```
* "color" produces similar output, but the text will be color coded to
indicate the severity of the message.
* "legacy" produces output similar to InvokeAI versions 2.3 and earlier:
```bash
### this is a critical error
*** this is an error
** this is a warning
>> this is an informational messages
| this is a debug message
```
* "syslog" produces messages suitable for syslog entries:
```bash
InvokeAI [2691178] <CRITICAL> this is a critical error
InvokeAI [2691178] <ERROR> this is an error
InvokeAI [2691178] <WARNING> this is a warning
InvokeAI [2691178] <INFO> this is an informational messages
InvokeAI [2691178] <DEBUG> this is a debug message
```
(note that the date, time and hostname will be added by the syslog
system)
### `--log_level {debug|info|warning|error|critical}`
Providing this command-line option will cause only messages at the
specified level or above to be emitted.
## Console logging
When "console" is provided to `--log_handlers`, messages will be
written to the command line window in which InvokeAI was launched. By
default, the color formatter will be used unless overridden by
`--log_format`.
## File logging
When "file" is provided to `--log_handlers`, entries will be written
to the file indicated in the path argument. By default, the "plain"
format will be used:
```bash
invokeai-web --log_handlers file=/var/log/invokeai.log
```
## Syslog logging
When "syslog" is requested, entries will be sent to the syslog
system. There are a variety of ways to control where the log message
is sent:
* Send to the local machine using the `/dev/log` socket:
```
invokeai-web --log_handlers syslog=/dev/log
```
* Send to the local machine using a UDP message:
```
invokeai-web --log_handlers syslog=localhost
```
* Send to the local machine using a UDP message on a nonstandard
port:
```
invokeai-web --log_handlers syslog=localhost:512
```
* Send to a remote machine named "loghost" on the local LAN using
facility LOG_USER and UDP packets:
```
invokeai-web --log_handlers syslog=loghost,facility=LOG_USER,socktype=SOCK_DGRAM
```
This can be abbreviated `syslog=loghost`, as LOG_USER and SOCK_DGRAM
are defaults.
* Send to a remote machine named "loghost" using the facility LOCAL0
and using a TCP socket:
```
invokeai-web --log_handlers syslog=loghost,facility=LOG_LOCAL0,socktype=SOCK_STREAM
```
If no arguments are specified (just a bare "syslog"), then the logging
system will look for a UNIX socket named `/dev/log`, and if not found
try to send a UDP message to `localhost`. The Macintosh OS used to
support logging to a socket named `/var/run/syslog`, but this feature
has since been disabled.
## Web logging
If you have access to a web server that is configured to log messages
when a particular URL is requested, you can log using the "http"
method:
```
invokeai-web --log_handlers http=http://my.server/path/to/logger,method=POST
```
The optional [,method=] part can be used to specify whether the URL
accepts GET (default) or POST messages.
Currently password authentication and SSL are not supported.
## Using the configuration file
You can set and forget logging options by adding a "Logging" section
to `invokeai.yaml`:
```
InvokeAI:
[... other settings...]
Logging:
log_handlers:
- console
- syslog=/dev/log
log_level: info
log_format: color
```

3
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View File

@ -71,3 +71,6 @@ under the selected name and register it with InvokeAI.
use InvokeAI conventions - only alphanumeric letters and the
characters ".+-".
## Caveats
This is a new script and may contain bugs.

28
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View File

@ -31,22 +31,10 @@ turned on and off on the command line using `--nsfw_checker` and
At installation time, InvokeAI will ask whether the checker should be
activated by default (neither argument given on the command line). The
response is stored in the InvokeAI initialization file
(`invokeai.yaml` in the InvokeAI root directory). You can change the
default at any time by opening this file in a text editor and
changing the line `nsfw_checker:` from true to false or vice-versa:
```
...
Features:
esrgan: true
internet_available: true
log_tokenization: false
nsfw_checker: true
patchmatch: true
restore: true
```
response is stored in the InvokeAI initialization file (usually
`.invokeai` in your home directory). You can change the default at any
time by opening this file in a text editor and commenting or
uncommenting the line `--nsfw_checker`.
## Caveats
@ -91,3 +79,11 @@ generates. However, it does write metadata into the PNG data area,
including the prompt used to generate the image and relevant parameter
settings. These fields can be examined using the `sd-metadata.py`
script that comes with the InvokeAI package.
Note that several other Stable Diffusion distributions offer
wavelet-based "invisible" watermarking. We have experimented with the
library used to generate these watermarks and have reached the
conclusion that while the watermarking library may be adding
watermarks to PNG images, the currently available version is unable to
retrieve them successfully. If and when a functioning version of the
library becomes available, we will offer this feature as well.

116
docs/features/OTHER.md
View File

@ -18,16 +18,43 @@ Output Example:
## **Seamless Tiling**
The seamless tiling mode causes generated images to seamlessly tile
with itself creating repetitive wallpaper-like patterns. To use it,
activate the Seamless Tiling option in the Web GUI and then select
whether to tile on the X (horizontal) and/or Y (vertical) axes. Tiling
will then be active for the next set of generations.
A nice prompt to test seamless tiling with is:
The seamless tiling mode causes generated images to seamlessly tile with itself. To use it, add the
`--seamless` option when starting the script which will result in all generated images to tile, or
for each `invoke>` prompt as shown here:
```python
invoke> "pond garden with lotus by claude monet" --seamless -s100 -n4
```
pond garden with lotus by claude monet"
By default this will tile on both the X and Y axes. However, you can also specify specific axes to tile on with `--seamless_axes`.
Possible values are `x`, `y`, and `x,y`:
```python
invoke> "pond garden with lotus by claude monet" --seamless --seamless_axes=x -s100 -n4
```
---
## **Shortcuts: Reusing Seeds**
Since it is so common to reuse seeds while refining a prompt, there is now a shortcut as of version
1.11. Provide a `-S` (or `--seed`) switch of `-1` to use the seed of the most recent image
generated. If you produced multiple images with the `-n` switch, then you can go back further
using `-2`, `-3`, etc. up to the first image generated by the previous command. Sorry, but you can't go
back further than one command.
Here's an example of using this to do a quick refinement. It also illustrates using the new `-G`
switch to turn on upscaling and face enhancement (see previous section):
```bash
invoke> a cute child playing hopscotch -G0.5
[...]
outputs/img-samples/000039.3498014304.png: "a cute child playing hopscotch" -s50 -W512 -H512 -C7.5 -mk_lms -S3498014304
# I wonder what it will look like if I bump up the steps and set facial enhancement to full strength?
invoke> a cute child playing hopscotch -G1.0 -s100 -S -1
reusing previous seed 3498014304
[...]
outputs/img-samples/000040.3498014304.png: "a cute child playing hopscotch" -G1.0 -s100 -W512 -H512 -C7.5 -mk_lms -S3498014304
```
---
@ -46,27 +73,66 @@ This will tell the sampler to invest 25% of its effort on the tabby cat aspect o
on the white duck aspect (surprisingly, this example actually works). The prompt weights can use any
combination of integers and floating point numbers, and they do not need to add up to 1.
---
## **Filename Format**
The argument `--fnformat` allows to specify the filename of the
image. Supported wildcards are all arguments what can be set such as
`perlin`, `seed`, `threshold`, `height`, `width`, `gfpgan_strength`,
`sampler_name`, `steps`, `model`, `upscale`, `prompt`, `cfg_scale`,
`prefix`.
The following prompt
```bash
dream> a red car --steps 25 -C 9.8 --perlin 0.1 --fnformat {prompt}_steps.{steps}_cfg.{cfg_scale}_perlin.{perlin}.png
```
generates a file with the name: `outputs/img-samples/a red car_steps.25_cfg.9.8_perlin.0.1.png`
---
## **Thresholding and Perlin Noise Initialization Options**
Under the Noise section of the Web UI, you will find two options named
Perlin Noise and Noise Threshold. [Perlin
noise](https://en.wikipedia.org/wiki/Perlin_noise) is a type of
structured noise used to simulate terrain and other natural
textures. The slider controls the percentage of perlin noise that will
be mixed into the image at the beginning of generation. Adding a little
perlin noise to a generation will alter the image substantially.
The noise threshold limits the range of the latent values during
sampling and helps combat the oversharpening seem with higher CFG
scale values.
Two new options are the thresholding (`--threshold`) and the perlin noise initialization (`--perlin`) options. Thresholding limits the range of the latent values during optimization, which helps combat oversaturation with higher CFG scale values. Perlin noise initialization starts with a percentage (a value ranging from 0 to 1) of perlin noise mixed into the initial noise. Both features allow for more variations and options in the course of generating images.
For better intuition into what these options do in practice:
![here is a graphic demonstrating them both](../assets/truncation_comparison.jpg)
In generating this graphic, perlin noise at initialization was
programmatically varied going across on the diagram by values 0.0,
0.1, 0.2, 0.4, 0.5, 0.6, 0.8, 0.9, 1.0; and the threshold was varied
going down from 0, 1, 2, 3, 4, 5, 10, 20, 100. The other options are
fixed using the prompt "a portrait of a beautiful young lady" a CFG of
20, 100 steps, and a seed of 1950357039.
In generating this graphic, perlin noise at initialization was programmatically varied going across on the diagram by values 0.0, 0.1, 0.2, 0.4, 0.5, 0.6, 0.8, 0.9, 1.0; and the threshold was varied going down from
0, 1, 2, 3, 4, 5, 10, 20, 100. The other options are fixed, so the initial prompt is as follows (no thresholding or perlin noise):
```bash
invoke> "a portrait of a beautiful young lady" -S 1950357039 -s 100 -C 20 -A k_euler_a --threshold 0 --perlin 0
```
Here's an example of another prompt used when setting the threshold to 5 and perlin noise to 0.2:
```bash
invoke> "a portrait of a beautiful young lady" -S 1950357039 -s 100 -C 20 -A k_euler_a --threshold 5 --perlin 0.2
```
!!! note
currently the thresholding feature is only implemented for the k-diffusion style samplers, and empirically appears to work best with `k_euler_a` and `k_dpm_2_a`. Using 0 disables thresholding. Using 0 for perlin noise disables using perlin noise for initialization. Finally, using 1 for perlin noise uses only perlin noise for initialization.
---
## **Simplified API**
For programmers who wish to incorporate stable-diffusion into other products, this repository
includes a simplified API for text to image generation, which lets you create images from a prompt
in just three lines of code:
```bash
from ldm.generate import Generate
g = Generate()
outputs = g.txt2img("a unicorn in manhattan")
```
Outputs is a list of lists in the format [filename1,seed1],[filename2,seed2]...].
Please see the documentation in ldm/generate.py for more information.
---

0
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161
docs/features/POSTPROCESS.md
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@ -8,6 +8,12 @@ title: Postprocessing
This extension provides the ability to restore faces and upscale images.
Face restoration and upscaling can be applied at the time you generate the
images, or at any later time against a previously-generated PNG file, using the
[!fix](#fixing-previously-generated-images) command.
[Outpainting and outcropping](OUTPAINTING.md) can only be applied after the
fact.
## Face Fixing
The default face restoration module is GFPGAN. The default upscale is
@ -17,7 +23,8 @@ Real-ESRGAN. For an alternative face restoration module, see
As of version 1.14, environment.yaml will install the Real-ESRGAN package into
the standard install location for python packages, and will put GFPGAN into a
subdirectory of "src" in the InvokeAI directory. Upscaling with Real-ESRGAN
should "just work" without further intervention. Simply indicate the desired scale on
should "just work" without further intervention. Simply pass the `--upscale`
(`-U`) option on the `invoke>` command line, or indicate the desired scale on
the popup in the Web GUI.
**GFPGAN** requires a series of downloadable model files to work. These are
@ -34,75 +41,48 @@ reconstruction.
### Upscaling
Open the upscaling dialog by clicking on the "expand" icon located
above the image display area in the Web UI:
`-U : <upscaling_factor> <upscaling_strength>`
<figure markdown>
![upscale1](../assets/features/upscale-dialog.png)
</figure>
The upscaling prompt argument takes two values. The first value is a scaling
factor and should be set to either `2` or `4` only. This will either scale the
image 2x or 4x respectively using different models.
There are three different upscaling parameters that you can
adjust. The first is the scale itself, either 2x or 4x.
You can set the scaling stength between `0` and `1.0` to control intensity of
the of the scaling. This is handy because AI upscalers generally tend to smooth
out texture details. If you wish to retain some of those for natural looking
results, we recommend using values between `0.5 to 0.8`.
The second is the "Denoising Strength." Higher values will smooth out
the image and remove digital chatter, but may lose fine detail at
higher values.
Third, "Upscale Strength" allows you to adjust how the You can set the
scaling stength between `0` and `1.0` to control the intensity of the
scaling. AI upscalers generally tend to smooth out texture details. If
you wish to retain some of those for natural looking results, we
recommend using values between `0.5 to 0.8`.
[This figure](../assets/features/upscaling-montage.png) illustrates
the effects of denoising and strength. The original image was 512x512,
4x scaled to 2048x2048. The "original" version on the upper left was
scaled using simple pixel averaging. The remainder use the ESRGAN
upscaling algorithm at different levels of denoising and strength.
<figure markdown>
![upscaling](../assets/features/upscaling-montage.png){ width=720 }
</figure>
Both denoising and strength default to 0.75.
If you do not explicitly specify an upscaling_strength, it will default to 0.75.
### Face Restoration
InvokeAI offers alternative two face restoration algorithms,
[GFPGAN](https://github.com/TencentARC/GFPGAN) and
[CodeFormer](https://huggingface.co/spaces/sczhou/CodeFormer). These
algorithms improve the appearance of faces, particularly eyes and
mouths. Issues with faces are less common with the latest set of
Stable Diffusion models than with the original 1.4 release, but the
restoration algorithms can still make a noticeable improvement in
certain cases. You can also apply restoration to old photographs you
upload.
`-G : <facetool_strength>`
To access face restoration, click the "smiley face" icon in the
toolbar above the InvokeAI image panel. You will be presented with a
dialog that offers a choice between the two algorithm and sliders that
allow you to adjust their parameters. Alternatively, you may open the
left-hand accordion panel labeled "Face Restoration" and have the
restoration algorithm of your choice applied to generated images
automatically.
This prompt argument controls the strength of the face restoration that is being
applied. Similar to upscaling, values between `0.5 to 0.8` are recommended.
You can use either one or both without any conflicts. In cases where you use
both, the image will be first upscaled and then the face restoration process
will be executed to ensure you get the highest quality facial features.
Like upscaling, there are a number of parameters that adjust the face
restoration output. GFPGAN has a single parameter, `strength`, which
controls how much the algorithm is allowed to adjust the
image. CodeFormer has two parameters, `strength`, and `fidelity`,
which together control the quality of the output image as described in
the [CodeFormer project
page](https://shangchenzhou.com/projects/CodeFormer/). Default values
are 0.75 for both parameters, which achieves a reasonable balance
between changing the image too much and not enough.
`--save_orig`
[This figure](../assets/features/restoration-montage.png) illustrates
the effects of adjusting GFPGAN and CodeFormer parameters.
When you use either `-U` or `-G`, the final result you get is upscaled or face
modified. If you want to save the original Stable Diffusion generation, you can
use the `-save_orig` prompt argument to save the original unaffected version
too.
<figure markdown>
![upscaling](../assets/features/restoration-montage.png){ width=720 }
</figure>
### Example Usage
```bash
invoke> "superman dancing with a panda bear" -U 2 0.6 -G 0.4
```
This also works with img2img:
```bash
invoke> "a man wearing a pineapple hat" -I path/to/your/file.png -U 2 0.5 -G 0.6
```
!!! note
@ -115,8 +95,69 @@ the effects of adjusting GFPGAN and CodeFormer parameters.
process is complete. While the image generation is taking place, you will still be able to preview
the base images.
If you wish to stop during the image generation but want to upscale or face
restore a particular generated image, pass it again with the same prompt and
generated seed along with the `-U` and `-G` prompt arguments to perform those
actions.
## CodeFormer Support
This repo also allows you to perform face restoration using
[CodeFormer](https://github.com/sczhou/CodeFormer).
In order to setup CodeFormer to work, you need to download the models like with
GFPGAN. You can do this either by running `invokeai-configure` or by manually
downloading the
[model file](https://github.com/sczhou/CodeFormer/releases/download/v0.1.0/codeformer.pth)
and saving it to `ldm/invoke/restoration/codeformer/weights` folder.
You can use `-ft` prompt argument to swap between CodeFormer and the default
GFPGAN. The above mentioned `-G` prompt argument will allow you to control the
strength of the restoration effect.
### CodeFormer Usage
The following command will perform face restoration with CodeFormer instead of
the default gfpgan.
`<prompt> -G 0.8 -ft codeformer`
### Other Options
- `-cf` - cf or CodeFormer Fidelity takes values between `0` and `1`. 0 produces
high quality results but low accuracy and 1 produces lower quality results but
higher accuacy to your original face.
The following command will perform face restoration with CodeFormer. CodeFormer
will output a result that is closely matching to the input face.
`<prompt> -G 1.0 -ft codeformer -cf 0.9`
The following command will perform face restoration with CodeFormer. CodeFormer
will output a result that is the best restoration possible. This may deviate
slightly from the original face. This is an excellent option to use in
situations when there is very little facial data to work with.
`<prompt> -G 1.0 -ft codeformer -cf 0.1`
## Fixing Previously-Generated Images
It is easy to apply face restoration and/or upscaling to any
previously-generated file. Just use the syntax
`!fix path/to/file.png <options>`. For example, to apply GFPGAN at strength 0.8
and upscale 2X for a file named `./outputs/img-samples/000044.2945021133.png`,
just run:
```bash
invoke> !fix ./outputs/img-samples/000044.2945021133.png -G 0.8 -U 2
```
A new file named `000044.2945021133.fixed.png` will be created in the output
directory. Note that the `!fix` command does not replace the original file,
unlike the behavior at generate time.
## How to disable
If, for some reason, you do not wish to load the GFPGAN and/or ESRGAN libraries,
you can disable them on the invoke.py command line with the `--no_restore` and
`--no_esrgan` options, respectively.
`--no_upscale` options, respectively.

104
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@ -4,12 +4,77 @@ title: Prompting-Features
# :octicons-command-palette-24: Prompting-Features
## **Reading Prompts from a File**
You can automate `invoke.py` by providing a text file with the prompts you want
to run, one line per prompt. The text file must be composed with a text editor
(e.g. Notepad) and not a word processor. Each line should look like what you
would type at the invoke> prompt:
```bash
"a beautiful sunny day in the park, children playing" -n4 -C10
"stormy weather on a mountain top, goats grazing" -s100
"innovative packaging for a squid's dinner" -S137038382
```
Then pass this file's name to `invoke.py` when you invoke it:
```bash
python scripts/invoke.py --from_file "/path/to/prompts.txt"
```
You may also read a series of prompts from standard input by providing
a filename of `-`. For example, here is a python script that creates a
matrix of prompts, each one varying slightly:
```bash
#!/usr/bin/env python
adjectives = ['sunny','rainy','overcast']
samplers = ['k_lms','k_euler_a','k_heun']
cfg = [7.5, 9, 11]
for adj in adjectives:
for samp in samplers:
for cg in cfg:
print(f'a {adj} day -A{samp} -C{cg}')
```
Its output looks like this (abbreviated):
```bash
a sunny day -Aklms -C7.5
a sunny day -Aklms -C9
a sunny day -Aklms -C11
a sunny day -Ak_euler_a -C7.5
a sunny day -Ak_euler_a -C9
...
a overcast day -Ak_heun -C9
a overcast day -Ak_heun -C11
```
To feed it to invoke.py, pass the filename of "-"
```bash
python matrix.py | python scripts/invoke.py --from_file -
```
When the script is finished, each of the 27 combinations
of adjective, sampler and CFG will be executed.
The command-line interface provides `!fetch` and `!replay` commands
which allow you to read the prompts from a single previously-generated
image or a whole directory of them, write the prompts to a file, and
then replay them. Or you can create your own file of prompts and feed
them to the command-line client from within an interactive session.
See [Command-Line Interface](CLI.md) for details.
---
## **Negative and Unconditioned Prompts**
Any words between a pair of square brackets will instruct Stable
Diffusion to attempt to ban the concept from the generated image. The
same effect is achieved by placing words in the "Negative Prompts"
textbox in the Web UI.
Any words between a pair of square brackets will instruct Stable Diffusion to
attempt to ban the concept from the generated image.
```text
this is a test prompt [not really] to make you understand [cool] how this works.
@ -22,9 +87,7 @@ Here's a prompt that depicts what it does.
original prompt:
`#!bash "A fantastical translucent pony made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve"`
`#!bash parameters: steps=20, dimensions=512x768, CFG=7.5, Scheduler=k_euler_a, seed=1654590180`
`#!bash "A fantastical translucent pony made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve" -s 20 -W 512 -H 768 -C 7.5 -A k_euler_a -S 1654590180`
<figure markdown>
@ -36,8 +99,7 @@ That image has a woman, so if we want the horse without a rider, we can
influence the image not to have a woman by putting [woman] in the prompt, like
this:
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman]"`
(same parameters as above)
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman]" -s 20 -W 512 -H 768 -C 7.5 -A k_euler_a -S 1654590180`
<figure markdown>
@ -48,8 +110,7 @@ this:
That's nice - but say we also don't want the image to be quite so blue. We can
add "blue" to the list of negative prompts, so it's now [woman blue]:
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman blue]"`
(same parameters as above)
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman blue]" -s 20 -W 512 -H 768 -C 7.5 -A k_euler_a -S 1654590180`
<figure markdown>
@ -60,8 +121,7 @@ add "blue" to the list of negative prompts, so it's now [woman blue]:
Getting close - but there's no sense in having a saddle when our horse doesn't
have a rider, so we'll add one more negative prompt: [woman blue saddle].
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman blue saddle]"`
(same parameters as above)
`#!bash "A fantastical translucent poney made of water and foam, ethereal, radiant, hyperalism, scottish folklore, digital painting, artstation, concept art, smooth, 8 k frostbite 3 engine, ultra detailed, art by artgerm and greg rutkowski and magali villeneuve [woman blue saddle]" -s 20 -W 512 -H 768 -C 7.5 -A k_euler_a -S 1654590180`
<figure markdown>
@ -201,6 +261,19 @@ Prompt2prompt `.swap()` is not compatible with xformers, which will be temporari
The `prompt2prompt` code is based off
[bloc97's colab](https://github.com/bloc97/CrossAttentionControl).
Note that `prompt2prompt` is not currently working with the runwayML inpainting
model, and may never work due to the way this model is set up. If you attempt to
use `prompt2prompt` you will get the original image back. However, since this
model is so good at inpainting, a good substitute is to use the `clipseg` text
masking option:
```bash
invoke> a fluffy cat eating a hotdog
Outputs:
[1010] outputs/000025.2182095108.png: a fluffy cat eating a hotdog
invoke> a smiling dog eating a hotdog -I 000025.2182095108.png -tm cat
```
### Escaping parantheses () and speech marks ""
If the model you are using has parentheses () or speech marks "" as part of its
@ -301,5 +374,6 @@ summoning up the concept of some sort of scifi creature? Let's find out.
Indeed, removing the word "hybrid" produces an image that is more like what we'd
expect.
In conclusion, prompt blending is great for exploring creative space,
but takes some trial and error to achieve the desired effect.
In conclusion, prompt blending is great for exploring creative space, but can be
difficult to direct. A forthcoming release of InvokeAI will feature more
deterministic prompt weighting.

18
docs/features/TEXTUAL_INVERSION.md
View File

@ -46,19 +46,11 @@ start the front end by selecting choice (3):
```sh
Do you want to generate images using the
1: Browser-based UI
2: Command-line interface
3: Run textual inversion training
4: Merge models (diffusers type only)
5: Download and install models
6: Change InvokeAI startup options
7: Re-run the configure script to fix a broken install
8: Open the developer console
9: Update InvokeAI
10: Command-line help
Q: Quit
Please enter 1-10, Q: [1]
1. command-line
2. browser-based UI
3. textual inversion training
4. open the developer console
Please enter 1, 2, 3, or 4: [1] 3
```
From the command line, with the InvokeAI virtual environment active,

42
docs/features/VARIATIONS.md
View File

@ -6,7 +6,9 @@ title: Variations
## Intro
InvokeAI's support for variations enables you to do the following:
Release 1.13 of SD-Dream adds support for image variations.
You are able to do the following:
1. Generate a series of systematic variations of an image, given a prompt. The
amount of variation from one image to the next can be controlled.
@ -28,7 +30,19 @@ The prompt we will use throughout is:
This will be indicated as `#!bash "prompt"` in the examples below.
First we let SD create a series of images in the usual way, in this case
requesting six iterations.
requesting six iterations:
```bash
invoke> lucy lawless as xena, warrior princess, character portrait, high resolution -n6
...
Outputs:
./outputs/Xena/000001.1579445059.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S1579445059
./outputs/Xena/000001.1880768722.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S1880768722
./outputs/Xena/000001.332057179.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S332057179
./outputs/Xena/000001.2224800325.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S2224800325
./outputs/Xena/000001.465250761.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S465250761
./outputs/Xena/000001.3357757885.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -S3357757885
```
<figure markdown>
![var1](../assets/variation_walkthru/000001.3357757885.png)
@ -39,16 +53,22 @@ requesting six iterations.
## Step 2 - Generating Variations
Let's try to generate some variations on this image. We select the "*"
symbol in the line of icons above the image in order to fix the prompt
and seed. Then we open up the "Variations" section of the generation
panel and use the slider to set the variation amount to 0.2. The
higher this value, the more each generated image will differ from the
previous one.
Let's try to generate some variations. Using the same seed, we pass the argument
`-v0.1` (or --variant_amount), which generates a series of variations each
differing by a variation amount of 0.2. This number ranges from `0` to `1.0`,
with higher numbers being larger amounts of variation.
Now we run the prompt a second time, requesting six iterations. You
will see six images that are thematically related to each other. Try
increasing and decreasing the variation amount and see what happens.
```bash
invoke> "prompt" -n6 -S3357757885 -v0.2
...
Outputs:
./outputs/Xena/000002.784039624.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 784039624:0.2 -S3357757885
./outputs/Xena/000002.3647897225.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 3647897225:0.2 -S3357757885
./outputs/Xena/000002.917731034.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 917731034:0.2 -S3357757885
./outputs/Xena/000002.4116285959.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 4116285959:0.2 -S3357757885
./outputs/Xena/000002.1614299449.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 1614299449:0.2 -S3357757885
./outputs/Xena/000002.1335553075.png: "prompt" -s50 -W512 -H512 -C7.5 -Ak_lms -V 1335553075:0.2 -S3357757885
```
### **Variation Sub Seeding**

10
docs/features/WEB.md
View File

@ -299,6 +299,14 @@ initial image" icons are located.
See the [Unified Canvas Guide](UNIFIED_CANVAS.md)
## Parting remarks
This concludes the walkthrough, but there are several more features that you can
explore. Please check out the [Command Line Interface](CLI.md) documentation for
further explanation of the advanced features that were not covered here.
The WebUI is only rapid development. Check back regularly for updates!
## Reference
### Additional Options
@ -341,9 +349,11 @@ the settings configured in the toolbar.
See below for additional documentation related to each feature:
- [Core Prompt Settings](./CLI.md)
- [Variations](./VARIATIONS.md)
- [Upscaling](./POSTPROCESS.md#upscaling)
- [Image to Image](./IMG2IMG.md)
- [Inpainting](./INPAINTING.md)
- [Other](./OTHER.md)
#### Invocation Gallery

17
docs/features/index.md
View File

@ -13,16 +13,28 @@ Build complex scenes by combine and modifying multiple images in a stepwise
fashion. This feature combines img2img, inpainting and outpainting in
a single convenient digital artist-optimized user interface.
### * The [Command Line Interface (CLI)](CLI.md)
Scriptable access to InvokeAI's features.
## Image Generation
### * [Prompt Engineering](PROMPTS.md)
Get the images you want with the InvokeAI prompt engineering language.
## * [Post-Processing](POSTPROCESS.md)
Restore mangled faces and make images larger with upscaling. Also see the [Embiggen Upscaling Guide](EMBIGGEN.md).
## * The [Concepts Library](CONCEPTS.md)
Add custom subjects and styles using HuggingFace's repository of embeddings.
### * [Image-to-Image Guide](IMG2IMG.md)
### * [Image-to-Image Guide for the CLI](IMG2IMG.md)
Use a seed image to build new creations in the CLI.
### * [Inpainting Guide for the CLI](INPAINTING.md)
Selectively erase and replace portions of an existing image in the CLI.
### * [Outpainting Guide for the CLI](OUTPAINTING.md)
Extend the borders of the image with an "outcrop" function within the CLI.
### * [Generating Variations](VARIATIONS.md)
Have an image you like and want to generate many more like it? Variations
are the ticket.
@ -45,9 +57,6 @@ Personalize models by adding your own style or subjects.
## * [The NSFW Checker](NSFW.md)
Prevent InvokeAI from displaying unwanted racy images.
## * [Controlling Logging](LOGGING.md)
Control how InvokeAI logs status messages.
## * [Miscellaneous](OTHER.md)
Run InvokeAI on Google Colab, generate images with repeating patterns,
batch process a file of prompts, increase the "creativity" of image

123
docs/index.md
View File

@ -13,7 +13,6 @@ title: Home
<div align="center" markdown>
[![project logo](assets/invoke_ai_banner.png)](https://github.com/invoke-ai/InvokeAI)
[![discord badge]][discord link]
@ -68,7 +67,7 @@ title: Home
implementation of Stable Diffusion, the open source text-to-image and
image-to-image generator. It provides a streamlined process with various new
features and options to aid the image generation process. It runs on Windows,
Mac and Linux machines, and runs on GPU cards with as little as 4 GB of RAM.
Mac and Linux machines, and runs on GPU cards with as little as 4 GB or RAM.
**Quick links**: [<a href="https://discord.gg/ZmtBAhwWhy">Discord Server</a>]
[<a href="https://github.com/invoke-ai/InvokeAI/">Code and Downloads</a>] [<a
@ -132,13 +131,17 @@ This method is recommended for those familiar with running Docker containers
- [WebUI overview](features/WEB.md)
- [WebUI hotkey reference guide](features/WEBUIHOTKEYS.md)
- [WebUI Unified Canvas for Img2Img, inpainting and outpainting](features/UNIFIED_CANVAS.md)
<!-- separator -->
### The InvokeAI Command Line Interface
- [Command Line Interace Reference Guide](features/CLI.md)
<!-- separator -->
### Image Management
- [Image2Image](features/IMG2IMG.md)
- [Inpainting](features/INPAINTING.md)
- [Outpainting](features/OUTPAINTING.md)
- [Adding custom styles and subjects](features/CONCEPTS.md)
- [Upscaling and Face Reconstruction](features/POSTPROCESS.md)
- [Embiggen upscaling](features/EMBIGGEN.md)
- [Other Features](features/OTHER.md)
<!-- separator -->
@ -153,60 +156,83 @@ This method is recommended for those familiar with running Docker containers
- [Prompt Syntax](features/PROMPTS.md)
- [Generating Variations](features/VARIATIONS.md)
## :octicons-log-16: Important Changes Since Version 2.3
## :octicons-log-16: Latest Changes
### Nodes
### v2.3.0 <small>(9 February 2023)</small>
Behind the scenes, InvokeAI has been completely rewritten to support
"nodes," small unitary operations that can be combined into graphs to
form arbitrary workflows. For example, there is a prompt node that
processes the prompt string and feeds it to a text2latent node that
generates a latent image. The latents are then fed to a latent2image
node that translates the latent image into a PNG.
#### Migration to Stable Diffusion `diffusers` models
The WebGUI has a node editor that allows you to graphically design and
execute custom node graphs. The ability to save and load graphs is
still a work in progress, but coming soon.
Previous versions of InvokeAI supported the original model file format introduced with Stable Diffusion 1.4. In the original format, known variously as "checkpoint", or "legacy" format, there is a single large weights file ending with `.ckpt` or `.safetensors`. Though this format has served the community well, it has a number of disadvantages, including file size, slow loading times, and a variety of non-standard variants that require special-case code to handle. In addition, because checkpoint files are actually a bundle of multiple machine learning sub-models, it is hard to swap different sub-models in and out, or to share common sub-models. A new format, introduced by the StabilityAI company in collaboration with HuggingFace, is called `diffusers` and consists of a directory of individual models. The most immediate benefit of `diffusers` is that they load from disk very quickly. A longer term benefit is that in the near future `diffusers` models will be able to share common sub-models, dramatically reducing disk space when you have multiple fine-tune models derived from the same base.
### Command-Line Interface Retired
When you perform a new install of version 2.3.0, you will be offered the option to install the `diffusers` versions of a number of popular SD models, including Stable Diffusion versions 1.5 and 2.1 (including the 768x768 pixel version of 2.1). These will act and work just like the checkpoint versions. Do not be concerned if you already have a lot of ".ckpt" or ".safetensors" models on disk! InvokeAI 2.3.0 can still load these and generate images from them without any extra intervention on your part.
The original "invokeai" command-line interface has been retired. The
`invokeai` command will now launch a new command-line client that can
be used by developers to create and test nodes. It is not intended to
be used for routine image generation or manipulation.
To take advantage of the optimized loading times of `diffusers` models, InvokeAI offers options to convert legacy checkpoint models into optimized `diffusers` models. If you use the `invokeai` command line interface, the relevant commands are:
To launch the Web GUI from the command-line, use the command
`invokeai-web` rather than the traditional `invokeai --web`.
* `!convert_model` -- Take the path to a local checkpoint file or a URL that is pointing to one, convert it into a `diffusers` model, and import it into InvokeAI's models registry file.
* `!optimize_model` -- If you already have a checkpoint model in your InvokeAI models file, this command will accept its short name and convert it into a like-named `diffusers` model, optionally deleting the original checkpoint file.
* `!import_model` -- Take the local path of either a checkpoint file or a `diffusers` model directory and import it into InvokeAI's registry file. You may also provide the ID of any diffusers model that has been published on the [HuggingFace models repository](https://huggingface.co/models?pipeline_tag=text-to-image&sort=downloads) and it will be downloaded and installed automatically.
### ControlNet
The WebGUI offers similar functionality for model management.
This version of InvokeAI features ControlNet, a system that allows you
to achieve exact poses for human and animal figures by providing a
model to follow. Full details are found in [ControlNet](features/CONTROLNET.md)
For advanced users, new command-line options provide additional functionality. Launching `invokeai` with the argument `--autoconvert <path to directory>` takes the path to a directory of checkpoint files, automatically converts them into `diffusers` models and imports them. Each time the script is launched, the directory will be scanned for new checkpoint files to be loaded. Alternatively, the `--ckpt_convert` argument will cause any checkpoint or safetensors model that is already registered with InvokeAI to be converted into a `diffusers` model on the fly, allowing you to take advantage of future diffusers-only features without explicitly converting the model and saving it to disk.
### New Schedulers
Please see [INSTALLING MODELS](https://invoke-ai.github.io/InvokeAI/installation/050_INSTALLING_MODELS/) for more information on model management in both the command-line and Web interfaces.
The list of schedulers has been completely revamped and brought up to date:
#### Support for the `XFormers` Memory-Efficient Crossattention Package
| **Short Name** | **Scheduler** | **Notes** |
|----------------|---------------------------------|-----------------------------|
| **ddim** | DDIMScheduler | |
| **ddpm** | DDPMScheduler | |
| **deis** | DEISMultistepScheduler | |
| **lms** | LMSDiscreteScheduler | |
| **pndm** | PNDMScheduler | |
| **heun** | HeunDiscreteScheduler | original noise schedule |
| **heun_k** | HeunDiscreteScheduler | using karras noise schedule |
| **euler** | EulerDiscreteScheduler | original noise schedule |
| **euler_k** | EulerDiscreteScheduler | using karras noise schedule |
| **kdpm_2** | KDPM2DiscreteScheduler | |
| **kdpm_2_a** | KDPM2AncestralDiscreteScheduler | |
| **dpmpp_2s** | DPMSolverSinglestepScheduler | |
| **dpmpp_2m** | DPMSolverMultistepScheduler | original noise scnedule |
| **dpmpp_2m_k** | DPMSolverMultistepScheduler | using karras noise schedule |
| **unipc** | UniPCMultistepScheduler | CPU only |
On CUDA (Nvidia) systems, version 2.3.0 supports the `XFormers` library. Once installed, the`xformers` package dramatically reduces the memory footprint of loaded Stable Diffusion models files and modestly increases image generation speed. `xformers` will be installed and activated automatically if you specify a CUDA system at install time.
Please see [3.0.0 Release Notes](https://github.com/invoke-ai/InvokeAI/releases/tag/v3.0.0) for further details.
The caveat with using `xformers` is that it introduces slightly non-deterministic behavior, and images generated using the same seed and other settings will be subtly different between invocations. Generally the changes are unnoticeable unless you rapidly shift back and forth between images, but to disable `xformers` and restore fully deterministic behavior, you may launch InvokeAI using the `--no-xformers` option. This is most conveniently done by opening the file `invokeai/invokeai.init` with a text editor, and adding the line `--no-xformers` at the bottom.
#### A Negative Prompt Box in the WebUI
There is now a separate text input box for negative prompts in the WebUI. This is convenient for stashing frequently-used negative prompts ("mangled limbs, bad anatomy"). The `[negative prompt]` syntax continues to work in the main prompt box as well.
To see exactly how your prompts are being parsed, launch `invokeai` with the `--log_tokenization` option. The console window will then display the tokenization process for both positive and negative prompts.
#### Model Merging
Version 2.3.0 offers an intuitive user interface for merging up to three Stable Diffusion models using an intuitive user interface. Model merging allows you to mix the behavior of models to achieve very interesting effects. To use this, each of the models must already be imported into InvokeAI and saved in `diffusers` format, then launch the merger using a new menu item in the InvokeAI launcher script (`invoke.sh`, `invoke.bat`) or directly from the command line with `invokeai-merge --gui`. You will be prompted to select the models to merge, the proportions in which to mix them, and the mixing algorithm. The script will create a new merged `diffusers` model and import it into InvokeAI for your use.
See [MODEL MERGING](https://invoke-ai.github.io/InvokeAI/features/MODEL_MERGING/) for more details.
#### Textual Inversion Training
Textual Inversion (TI) is a technique for training a Stable Diffusion model to emit a particular subject or style when triggered by a keyword phrase. You can perform TI training by placing a small number of images of the subject or style in a directory, and choosing a distinctive trigger phrase, such as "pointillist-style". After successful training, The subject or style will be activated by including `<pointillist-style>` in your prompt.
Previous versions of InvokeAI were able to perform TI, but it required using a command-line script with dozens of obscure command-line arguments. Version 2.3.0 features an intuitive TI frontend that will build a TI model on top of any `diffusers` model. To access training you can launch from a new item in the launcher script or from the command line using `invokeai-ti --gui`.
See [TEXTUAL INVERSION](https://invoke-ai.github.io/InvokeAI/features/TEXTUAL_INVERSION/) for further details.
#### A New Installer Experience
The InvokeAI installer has been upgraded in order to provide a smoother and hopefully more glitch-free experience. In addition, InvokeAI is now packaged as a PyPi project, allowing developers and power-users to install InvokeAI with the command `pip install InvokeAI --use-pep517`. Please see [Installation](#installation) for details.
Developers should be aware that the `pip` installation procedure has been simplified and that the `conda` method is no longer supported at all. Accordingly, the `environments_and_requirements` directory has been deleted from the repository.
#### Command-line name changes
All of InvokeAI's functionality, including the WebUI, command-line interface, textual inversion training and model merging, can all be accessed from the `invoke.sh` and `invoke.bat` launcher scripts. The menu of options has been expanded to add the new functionality. For the convenience of developers and power users, we have normalized the names of the InvokeAI command-line scripts:
* `invokeai` -- Command-line client
* `invokeai --web` -- Web GUI
* `invokeai-merge --gui` -- Model merging script with graphical front end
* `invokeai-ti --gui` -- Textual inversion script with graphical front end
* `invokeai-configure` -- Configuration tool for initializing the `invokeai` directory and selecting popular starter models.
For backward compatibility, the old command names are also recognized, including `invoke.py` and `configure-invokeai.py`. However, these are deprecated and will eventually be removed.
Developers should be aware that the locations of the script's source code has been moved. The new locations are:
* `invokeai` => `ldm/invoke/CLI.py`
* `invokeai-configure` => `ldm/invoke/config/configure_invokeai.py`
* `invokeai-ti`=> `ldm/invoke/training/textual_inversion.py`
* `invokeai-merge` => `ldm/invoke/merge_diffusers`
Developers are strongly encouraged to perform an "editable" install of InvokeAI using `pip install -e . --use-pep517` in the Git repository, and then to call the scripts using their 2.3.0 names, rather than executing the scripts directly. Developers should also be aware that the several important data files have been relocated into a new directory named `invokeai`. This includes the WebGUI's `frontend` and `backend` directories, and the `INITIAL_MODELS.yaml` files used by the installer to select starter models. Eventually all InvokeAI modules will be in subdirectories of `invokeai`.
Please see [2.3.0 Release Notes](https://github.com/invoke-ai/InvokeAI/releases/tag/v2.3.0) for further details.
For older changelogs, please visit the
**[CHANGELOG](CHANGELOG/#v223-2-december-2022)**.
## :material-target: Troubleshooting
@ -242,3 +268,8 @@ free to send me an email if you use and like the script.
Original portions of the software are Copyright (c) 2022-23
by [The InvokeAI Team](https://github.com/invoke-ai).
## :octicons-book-24: Further Reading
Please see the original README for more information on this software and
underlying algorithm, located in the file
[README-CompViz.md](other/README-CompViz.md).

2
docs/installation/010_INSTALL_AUTOMATED.md
View File

@ -89,7 +89,7 @@ experimental versions later.
sudo apt update
sudo apt install -y software-properties-common
sudo add-apt-repository -y ppa:deadsnakes/ppa
sudo apt install -y python3.10 python3-pip python3.10-venv
sudo apt install python3.10 python3-pip python3.10-venv
sudo update-alternatives --install /usr/local/bin/python python /usr/bin/python3.10 3
```

2
docs/installation/020_INSTALL_MANUAL.md
View File

@ -216,7 +216,7 @@ manager, please follow these steps:
9. Run the command-line- or the web- interface:
From within INVOKEAI_ROOT, activate the environment
(with `source .venv/bin/activate` or `.venv\scripts\activate`), and then run
(with `source .venv/bin/activate` or `.venv\scripts\activate), and then run
the script `invokeai`. If the virtual environment you selected is NOT inside
INVOKEAI_ROOT, then you must specify the path to the root directory by adding
`--root_dir \path\to\invokeai` to the commands below:

8
docs/installation/060_INSTALL_PATCHMATCH.md
View File

@ -87,18 +87,18 @@ Prior to installing PyPatchMatch, you need to take the following steps:
sudo pacman -S --needed base-devel
```
2. Install `opencv` and `blas`:
2. Install `opencv`:
```sh
sudo pacman -S opencv blas
sudo pacman -S opencv
```
or for CUDA support
```sh
sudo pacman -S opencv-cuda blas
sudo pacman -S opencv-cuda
```
3. Fix the naming of the `opencv` package configuration file:
```sh

1
installer/install.bat.in
View File

@ -38,7 +38,6 @@ echo https://learn.microsoft.com/en-US/cpp/windows/latest-supported-vc-redist
echo.
echo See %INSTRUCTIONS% for more details.
echo.
echo "For the best user experience we suggest enlarging or maximizing this window now."
pause
@rem ---------------------------- check Python version ---------------

3
installer/install.sh.in
View File

@ -25,8 +25,7 @@ done
if [ -z "$PYTHON" ]; then
echo "A suitable Python interpreter could not be found"
echo "Please install Python $MINIMUM_PYTHON_VERSION or higher (maximum $MAXIMUM_PYTHON_VERSION) before running this script. See instructions at $INSTRUCTIONS for help."
echo "For the best user experience we suggest enlarging or maximizing this window now."
echo "Please install Python 3.9 or higher before running this script. See instructions at $INSTRUCTIONS for help."
read -p "Press any key to exit"
exit -1
fi

6
installer/lib/installer.py
View File

@ -149,7 +149,7 @@ class Installer:
return venv_dir
def install(self, root: str = "~/invokeai-3", version: str = "latest", yes_to_all=False, find_links: Path = None) -> None:
def install(self, root: str = "~/invokeai", version: str = "latest", yes_to_all=False, find_links: Path = None) -> None:
"""
Install the InvokeAI application into the given runtime path
@ -247,8 +247,8 @@ class InvokeAiInstance:
pip[
"install",
"--require-virtualenv",
"torch~=2.0.0",
"torchvision>=0.14.1",
"torch",
"torchvision",
"--force-reinstall",
"--find-links" if find_links is not None else None,
find_links,

2
installer/lib/messages.py
View File

@ -293,8 +293,6 @@ def introduction() -> None:
"3. Create initial configuration files.",
"",
"[i]At any point you may interrupt this program and resume later.",
"",
"[b]For the best user experience, please enlarge or maximize this window",
),
)
)

54
installer/templates/invoke.bat.in
View File

@ -7,42 +7,42 @@ call .venv\Scripts\activate.bat
set INVOKEAI_ROOT=.
:start
echo Desired action:
echo 1. Generate images with the browser-based interface
echo 2. Explore InvokeAI nodes using a command-line interface
echo 3. Run textual inversion training
echo 4. Merge models (diffusers type only)
echo 5. Download and install models
echo 6. Change InvokeAI startup options
echo 7. Re-run the configure script to fix a broken install or to complete a major upgrade
echo 8. Open the developer console
echo 9. Update InvokeAI
echo 10. Command-line help
echo Q - Quit
set /P choice="Please enter 1-10, Q: [2] "
if not defined choice set choice=2
IF /I "%choice%" == "1" (
echo Starting the InvokeAI browser-based UI..
python .venv\Scripts\invokeai-web.exe %*
) ELSE IF /I "%choice%" == "2" (
echo Do you want to generate images using the
echo 1. command-line interface
echo 2. browser-based UI
echo 3. run textual inversion training
echo 4. merge models (diffusers type only)
echo 5. download and install models
echo 6. change InvokeAI startup options
echo 7. re-run the configure script to fix a broken install
echo 8. open the developer console
echo 9. update InvokeAI
echo 10. command-line help
echo Q - quit
set /P restore="Please enter 1-10, Q: [2] "
if not defined restore set restore=2
IF /I "%restore%" == "1" (
echo Starting the InvokeAI command-line..
python .venv\Scripts\invokeai.exe %*
) ELSE IF /I "%choice%" == "3" (
) ELSE IF /I "%restore%" == "2" (
echo Starting the InvokeAI browser-based UI..
python .venv\Scripts\invokeai.exe --web %*
) ELSE IF /I "%restore%" == "3" (
echo Starting textual inversion training..
python .venv\Scripts\invokeai-ti.exe --gui
) ELSE IF /I "%choice%" == "4" (
) ELSE IF /I "%restore%" == "4" (
echo Starting model merging script..
python .venv\Scripts\invokeai-merge.exe --gui
) ELSE IF /I "%choice%" == "5" (
) ELSE IF /I "%restore%" == "5" (
echo Running invokeai-model-install...
python .venv\Scripts\invokeai-model-install.exe
) ELSE IF /I "%choice%" == "6" (
) ELSE IF /I "%restore%" == "6" (
echo Running invokeai-configure...
python .venv\Scripts\invokeai-configure.exe --skip-sd-weight --skip-support-models
) ELSE IF /I "%choice%" == "7" (
) ELSE IF /I "%restore%" == "7" (
echo Running invokeai-configure...
python .venv\Scripts\invokeai-configure.exe --yes --default_only
) ELSE IF /I "%choice%" == "8" (
) ELSE IF /I "%restore%" == "8" (
echo Developer Console
echo Python command is:
where python
@ -54,15 +54,15 @@ IF /I "%choice%" == "1" (
echo *************************
echo *** Type `exit` to quit this shell and deactivate the Python virtual environment ***
call cmd /k
) ELSE IF /I "%choice%" == "9" (
) ELSE IF /I "%restore%" == "9" (
echo Running invokeai-update...
python .venv\Scripts\invokeai-update.exe %*
) ELSE IF /I "%choice%" == "10" (
) ELSE IF /I "%restore%" == "10" (
echo Displaying command line help...
python .venv\Scripts\invokeai.exe --help %*
pause
exit /b
) ELSE IF /I "%choice%" == "q" (
) ELSE IF /I "%restore%" == "q" (
echo Goodbye!
goto ending
) ELSE (

220
installer/templates/invoke.sh.in
View File

@ -1,10 +1,5 @@
#!/bin/bash
# MIT License
# Coauthored by Lincoln Stein, Eugene Brodsky and Joshua Kimsey
# Copyright 2023, The InvokeAI Development Team
####
# This launch script assumes that:
# 1. it is located in the runtime directory,
@ -16,168 +11,85 @@
set -eu
# Ensure we're in the correct folder in case user's CWD is somewhere else
# ensure we're in the correct folder in case user's CWD is somewhere else
scriptdir=$(dirname "$0")
cd "$scriptdir"
. .venv/bin/activate
export INVOKEAI_ROOT="$scriptdir"
PARAMS=$@
# Check to see if dialog is installed (it seems to be fairly standard, but good to check regardless) and if the user has passed the --no-tui argument to disable the dialog TUI
tui=true
if command -v dialog &>/dev/null; then
# This must use $@ to properly loop through the arguments passed by the user
for arg in "$@"; do
if [ "$arg" == "--no-tui" ]; then
tui=false
# Remove the --no-tui argument to avoid errors later on when passing arguments to InvokeAI
PARAMS=$(echo "$PARAMS" | sed 's/--no-tui//')
break
fi
done
else
tui=false
fi
# Set required env var for torch on mac MPS
# set required env var for torch on mac MPS
if [ "$(uname -s)" == "Darwin" ]; then
export PYTORCH_ENABLE_MPS_FALLBACK=1
fi
# Primary function for the case statement to determine user input
do_choice() {
case $1 in
1)
clear
printf "Generate images with a browser-based interface\n"
invokeai-web $PARAMS
;;
2)
clear
printf "Explore InvokeAI nodes using a command-line interface\n"
invokeai $PARAMS
;;
3)
clear
printf "Textual inversion training\n"
invokeai-ti --gui $PARAMS
;;
4)
clear
printf "Merge models (diffusers type only)\n"
invokeai-merge --gui $PARAMS
;;
5)
clear
printf "Download and install models\n"
invokeai-model-install --root ${INVOKEAI_ROOT}
;;
6)
clear
printf "Change InvokeAI startup options\n"
invokeai-configure --root ${INVOKEAI_ROOT} --skip-sd-weights --skip-support-models
;;
7)
clear
printf "Re-run the configure script to fix a broken install or to complete a major upgrade\n"
invokeai-configure --root ${INVOKEAI_ROOT} --yes --default_only
;;
8)
clear
printf "Open the developer console\n"
file_name=$(basename "${BASH_SOURCE[0]}")
bash --init-file "$file_name"
;;
9)
clear
printf "Update InvokeAI\n"
invokeai-update
;;
10)
clear
printf "Command-line help\n"
invokeai --help
;;
"HELP 1")
clear
printf "Command-line help\n"
invokeai --help
;;
*)
clear
printf "Exiting...\n"
exit
;;
esac
clear
}
# Dialog-based TUI for launcing Invoke functions
do_dialog() {
options=(
1 "Generate images with a browser-based interface"
2 "Explore InvokeAI nodes using a command-line interface"
3 "Textual inversion training"
4 "Merge models (diffusers type only)"
5 "Download and install models"
6 "Change InvokeAI startup options"
7 "Re-run the configure script to fix a broken install or to complete a major upgrade"
8 "Open the developer console"
9 "Update InvokeAI")
choice=$(dialog --clear \
--backtitle "\Zb\Zu\Z3InvokeAI" \
--colors \
--title "What would you like to do?" \
--ok-label "Run" \
--cancel-label "Exit" \
--help-button \
--help-label "CLI Help" \
--menu "Select an option:" \
0 0 0 \
"${options[@]}" \
2>&1 >/dev/tty) || clear
do_choice "$choice"
clear
}
# Command-line interface for launching Invoke functions
do_line_input() {
clear
printf " ** For a more attractive experience, please install the 'dialog' utility using your package manager. **\n\n"
printf "What would you like to do?\n"
printf "1: Generate images using the browser-based interface\n"
printf "2: Explore InvokeAI nodes using the command-line interface\n"
printf "3: Run textual inversion training\n"
printf "4: Merge models (diffusers type only)\n"
printf "5: Download and install models\n"
printf "6: Change InvokeAI startup options\n"
printf "7: Re-run the configure script to fix a broken install\n"
printf "8: Open the developer console\n"
printf "9: Update InvokeAI\n"
printf "10: Command-line help\n"
printf "Q: Quit\n\n"
read -p "Please enter 1-10, Q: [1] " yn
choice=${yn:='1'}
do_choice $choice
clear
}
# Main IF statement for launching Invoke with either the TUI or CLI, and for checking if the user is in the developer console
if [ "$0" != "bash" ]; then
while true; do
if $tui; then
# .dialogrc must be located in the same directory as the invoke.sh script
export DIALOGRC="./.dialogrc"
do_dialog
else
do_line_input
fi
done
while true
do
echo "Do you want to generate images using the"
echo "1. command-line interface"
echo "2. browser-based UI"
echo "3. run textual inversion training"
echo "4. merge models (diffusers type only)"
echo "5. download and install models"
echo "6. change InvokeAI startup options"
echo "7. re-run the configure script to fix a broken install"
echo "8. open the developer console"
echo "9. update InvokeAI"
echo "10. command-line help"
echo "Q - Quit"
echo ""
read -p "Please enter 1-10, Q: [2] " yn
choice=${yn:='2'}
case $choice in
1)
echo "Starting the InvokeAI command-line..."
invokeai $@
;;
2)
echo "Starting the InvokeAI browser-based UI..."
invokeai --web $@
;;
3)
echo "Starting Textual Inversion:"
invokeai-ti --gui $@
;;
4)
echo "Merging Models:"
invokeai-merge --gui $@
;;
5)
invokeai-model-install --root ${INVOKEAI_ROOT}
;;
6)
invokeai-configure --root ${INVOKEAI_ROOT} --skip-sd-weights --skip-support-models
;;
7)
invokeai-configure --root ${INVOKEAI_ROOT} --yes --default_only
;;
8)
echo "Developer Console:"
file_name=$(basename "${BASH_SOURCE[0]}")
bash --init-file "$file_name"
;;
9)
echo "Update:"
invokeai-update
;;
10)
invokeai --help
;;
[qQ])
exit 0
;;
*)
echo "Invalid selection"
exit;;
esac
done
else # in developer console
python --version
printf "Press ^D to exit\n"
echo "Press ^D to exit"
export PS1="(InvokeAI) \u@\h \w> "
fi

110
invokeai/app/api/dependencies.py
View File

@ -1,34 +1,22 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
from logging import Logger
import os
from invokeai.app.services.board_image_record_storage import (
SqliteBoardImageRecordStorage,
)
from invokeai.app.services.board_images import (
BoardImagesService,
BoardImagesServiceDependencies,
)
from invokeai.app.services.board_record_storage import SqliteBoardRecordStorage
from invokeai.app.services.boards import BoardService, BoardServiceDependencies
from invokeai.app.services.image_record_storage import SqliteImageRecordStorage
from invokeai.app.services.images import ImageService, ImageServiceDependencies
from invokeai.app.services.metadata import CoreMetadataService
from invokeai.app.services.resource_name import SimpleNameService
from invokeai.app.services.urls import LocalUrlService
from invokeai.backend.util.logging import InvokeAILogger
from argparse import Namespace
from ..services.default_graphs import create_system_graphs
from ..services.latent_storage import DiskLatentsStorage, ForwardCacheLatentsStorage
from ...backend import Globals
from ..services.model_manager_initializer import get_model_manager
from ..services.restoration_services import RestorationServices
from ..services.graph import GraphExecutionState, LibraryGraph
from ..services.image_file_storage import DiskImageFileStorage
from ..services.image_storage import DiskImageStorage
from ..services.invocation_queue import MemoryInvocationQueue
from ..services.invocation_services import InvocationServices
from ..services.invoker import Invoker
from ..services.processor import DefaultInvocationProcessor
from ..services.sqlite import SqliteItemStorage
from ..services.model_manager_service import ModelManagerService
from .events import FastAPIEventService
@ -48,91 +36,49 @@ def check_internet() -> bool:
return False
logger = InvokeAILogger.getLogger()
class ApiDependencies:
"""Contains and initializes all dependencies for the API"""
invoker: Invoker = None
@staticmethod
def initialize(config, event_handler_id: int, logger: Logger = logger):
logger.info(f"Internet connectivity is {config.internet_available}")
def initialize(config, event_handler_id: int):
Globals.try_patchmatch = config.patchmatch
Globals.always_use_cpu = config.always_use_cpu
Globals.internet_available = config.internet_available and check_internet()
Globals.disable_xformers = not config.xformers
Globals.ckpt_convert = config.ckpt_convert
# TODO: Use a logger
print(f">> Internet connectivity is {Globals.internet_available}")
events = FastAPIEventService(event_handler_id)
output_folder = config.output_path
output_folder = os.path.abspath(
os.path.join(os.path.dirname(__file__), "../../../../outputs")
)
latents = ForwardCacheLatentsStorage(DiskLatentsStorage(f'{output_folder}/latents'))
images = DiskImageStorage(f'{output_folder}/images')
# TODO: build a file/path manager?
db_location = config.db_path
db_location.parent.mkdir(parents=True, exist_ok=True)
graph_execution_manager = SqliteItemStorage[GraphExecutionState](
filename=db_location, table_name="graph_executions"
)
urls = LocalUrlService()
metadata = CoreMetadataService()
image_record_storage = SqliteImageRecordStorage(db_location)
image_file_storage = DiskImageFileStorage(f"{output_folder}/images")
names = SimpleNameService()
latents = ForwardCacheLatentsStorage(
DiskLatentsStorage(f"{output_folder}/latents")
)
board_record_storage = SqliteBoardRecordStorage(db_location)
board_image_record_storage = SqliteBoardImageRecordStorage(db_location)
boards = BoardService(
services=BoardServiceDependencies(
board_image_record_storage=board_image_record_storage,
board_record_storage=board_record_storage,
image_record_storage=image_record_storage,
url=urls,
logger=logger,
)
)
board_images = BoardImagesService(
services=BoardImagesServiceDependencies(
board_image_record_storage=board_image_record_storage,
board_record_storage=board_record_storage,
image_record_storage=image_record_storage,
url=urls,
logger=logger,
)
)
images = ImageService(
services=ImageServiceDependencies(
board_image_record_storage=board_image_record_storage,
image_record_storage=image_record_storage,
image_file_storage=image_file_storage,
metadata=metadata,
url=urls,
logger=logger,
names=names,
graph_execution_manager=graph_execution_manager,
)
)
db_location = os.path.join(output_folder, "invokeai.db")
services = InvocationServices(
model_manager=ModelManagerService(config,logger),
model_manager=get_model_manager(config),
events=events,
latents=latents,
images=images,
boards=boards,
board_images=board_images,
queue=MemoryInvocationQueue(),
graph_library=SqliteItemStorage[LibraryGraph](
filename=db_location, table_name="graphs"
),
graph_execution_manager=graph_execution_manager,
graph_execution_manager=SqliteItemStorage[GraphExecutionState](
filename=db_location, table_name="graph_executions"
),
processor=DefaultInvocationProcessor(),
restoration=RestorationServices(config, logger),
configuration=config,
logger=logger,
restoration=RestorationServices(config),
)
create_system_graphs(services.graph_library)

2
invokeai/app/api/events.py
View File

@ -45,7 +45,7 @@ class FastAPIEventService(EventServiceBase):
)
except Empty:
await asyncio.sleep(0.1)
await asyncio.sleep(0.001)
pass
except asyncio.CancelledError as e:

21
invokeai/app/api/models/images.py Normal file
View File

@ -0,0 +1,21 @@
from pydantic import BaseModel, Field
from invokeai.app.models.image import ImageType
from invokeai.app.modules.metadata import ImageMetadata
class ImageResponse(BaseModel):
"""The response type for images"""
image_type: ImageType = Field(description="The type of the image")
image_name: str = Field(description="The name of the image")
image_url: str = Field(description="The url of the image")
thumbnail_url: str = Field(description="The url of the image's thumbnail")
metadata: ImageMetadata = Field(description="The image's metadata")
class ProgressImage(BaseModel):
"""The progress image sent intermittently during processing"""
width: int = Field(description="The effective width of the image in pixels")
height: int = Field(description="The effective height of the image in pixels")
dataURL: str = Field(description="The image data as a b64 data URL")

69
invokeai/app/api/routers/board_images.py
View File

@ -1,69 +0,0 @@
from fastapi import Body, HTTPException, Path, Query
from fastapi.routing import APIRouter
from invokeai.app.services.board_record_storage import BoardRecord, BoardChanges
from invokeai.app.services.image_record_storage import OffsetPaginatedResults
from invokeai.app.services.models.board_record import BoardDTO
from invokeai.app.services.models.image_record import ImageDTO
from ..dependencies import ApiDependencies
board_images_router = APIRouter(prefix="/v1/board_images", tags=["boards"])
@board_images_router.post(
"/",
operation_id="create_board_image",
responses={
201: {"description": "The image was added to a board successfully"},
},
status_code=201,
)
async def create_board_image(
board_id: str = Body(description="The id of the board to add to"),
image_name: str = Body(description="The name of the image to add"),
):
"""Creates a board_image"""
try:
result = ApiDependencies.invoker.services.board_images.add_image_to_board(board_id=board_id, image_name=image_name)
return result
except Exception as e:
raise HTTPException(status_code=500, detail="Failed to add to board")
@board_images_router.delete(
"/",
operation_id="remove_board_image",
responses={
201: {"description": "The image was removed from the board successfully"},
},
status_code=201,
)
async def remove_board_image(
board_id: str = Body(description="The id of the board"),
image_name: str = Body(description="The name of the image to remove"),
):
"""Deletes a board_image"""
try:
result = ApiDependencies.invoker.services.board_images.remove_image_from_board(board_id=board_id, image_name=image_name)
return result
except Exception as e:
raise HTTPException(status_code=500, detail="Failed to update board")
@board_images_router.get(
"/{board_id}",
operation_id="list_board_images",
response_model=OffsetPaginatedResults[ImageDTO],
)
async def list_board_images(
board_id: str = Path(description="The id of the board"),
offset: int = Query(default=0, description="The page offset"),
limit: int = Query(default=10, description="The number of boards per page"),
) -> OffsetPaginatedResults[ImageDTO]:
"""Gets a list of images for a board"""
results = ApiDependencies.invoker.services.board_images.get_images_for_board(
board_id,
)
return results

117
invokeai/app/api/routers/boards.py
View File

@ -1,117 +0,0 @@
from typing import Optional, Union
from fastapi import Body, HTTPException, Path, Query
from fastapi.routing import APIRouter
from invokeai.app.services.board_record_storage import BoardChanges
from invokeai.app.services.image_record_storage import OffsetPaginatedResults
from invokeai.app.services.models.board_record import BoardDTO
from ..dependencies import ApiDependencies
boards_router = APIRouter(prefix="/v1/boards", tags=["boards"])
@boards_router.post(
"/",
operation_id="create_board",
responses={
201: {"description": "The board was created successfully"},
},
status_code=201,
response_model=BoardDTO,
)
async def create_board(
board_name: str = Query(description="The name of the board to create"),
) -> BoardDTO:
"""Creates a board"""
try:
result = ApiDependencies.invoker.services.boards.create(board_name=board_name)
return result
except Exception as e:
raise HTTPException(status_code=500, detail="Failed to create board")
@boards_router.get("/{board_id}", operation_id="get_board", response_model=BoardDTO)
async def get_board(
board_id: str = Path(description="The id of board to get"),
) -> BoardDTO:
"""Gets a board"""
try:
result = ApiDependencies.invoker.services.boards.get_dto(board_id=board_id)
return result
except Exception as e:
raise HTTPException(status_code=404, detail="Board not found")
@boards_router.patch(
"/{board_id}",
operation_id="update_board",
responses={
201: {
"description": "The board was updated successfully",
},
},
status_code=201,
response_model=BoardDTO,
)
async def update_board(
board_id: str = Path(description="The id of board to update"),
changes: BoardChanges = Body(description="The changes to apply to the board"),
) -> BoardDTO:
"""Updates a board"""
try:
result = ApiDependencies.invoker.services.boards.update(
board_id=board_id, changes=changes
)
return result
except Exception as e:
raise HTTPException(status_code=500, detail="Failed to update board")
@boards_router.delete("/{board_id}", operation_id="delete_board")
async def delete_board(
board_id: str = Path(description="The id of board to delete"),
include_images: Optional[bool] = Query(
description="Permanently delete all images on the board", default=False
),
) -> None:
"""Deletes a board"""
try:
if include_images is True:
ApiDependencies.invoker.services.images.delete_images_on_board(
board_id=board_id
)
ApiDependencies.invoker.services.boards.delete(board_id=board_id)
else:
ApiDependencies.invoker.services.boards.delete(board_id=board_id)
except Exception as e:
# TODO: Does this need any exception handling at all?
pass
@boards_router.get(
"/",
operation_id="list_boards",
response_model=Union[OffsetPaginatedResults[BoardDTO], list[BoardDTO]],
)
async def list_boards(
all: Optional[bool] = Query(default=None, description="Whether to list all boards"),
offset: Optional[int] = Query(default=None, description="The page offset"),
limit: Optional[int] = Query(
default=None, description="The number of boards per page"
),
) -> Union[OffsetPaginatedResults[BoardDTO], list[BoardDTO]]:
"""Gets a list of boards"""
if all:
return ApiDependencies.invoker.services.boards.get_all()
elif offset is not None and limit is not None:
return ApiDependencies.invoker.services.boards.get_many(
offset,
limit,
)
else:
raise HTTPException(
status_code=400,
detail="Invalid request: Must provide either 'all' or both 'offset' and 'limit'",
)

313
invokeai/app/api/routers/images.py
View File

@ -1,241 +1,144 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
import io
from typing import Optional
from fastapi import Body, HTTPException, Path, Query, Request, Response, UploadFile
from fastapi.routing import APIRouter
from fastapi.responses import FileResponse
from PIL import Image
from invokeai.app.models.image import (
ImageCategory,
ResourceOrigin,
)
from invokeai.app.services.image_record_storage import OffsetPaginatedResults
from invokeai.app.services.models.image_record import (
ImageDTO,
ImageRecordChanges,
ImageUrlsDTO,
)
from invokeai.app.services.item_storage import PaginatedResults
from datetime import datetime, timezone
import json
import os
import uuid
from fastapi import HTTPException, Path, Query, Request, UploadFile
from fastapi.responses import FileResponse, Response
from fastapi.routing import APIRouter
from PIL import Image
from invokeai.app.api.models.images import ImageResponse
from invokeai.app.modules.metadata import ImageMetadata, InvokeAIMetadata
from invokeai.app.services.item_storage import PaginatedResults
from invokeai.app.util.image_paths import build_image_path
from ...services.image_storage import ImageType
from ..dependencies import ApiDependencies
images_router = APIRouter(prefix="/v1/images", tags=["images"])
@images_router.get("/{image_type}/{image_name}", operation_id="get_image")
async def get_image(
image_type: ImageType = Path(description="The type of image to get"),
image_name: str = Path(description="The name of the image to get"),
) -> FileResponse | Response:
"""Gets a result"""
path = ApiDependencies.invoker.services.images.get_path(
image_type=image_type, image_name=image_name
)
if ApiDependencies.invoker.services.images.validate_path(path):
return FileResponse(path)
else:
raise HTTPException(status_code=404)
@images_router.get("/path/{image_type}/{image_name}", operation_id="get_image_path")
async def get_image_path(
image_type: ImageType = Path(description="The type of image to get"),
image_name: str = Path(description="The name of the image to get"),
) -> str:
"""Gets a result location"""
path = build_image_path(image_type=image_type, image_name=image_name)
return path
@images_router.get(
"/{image_type}/thumbnails/{image_name}", operation_id="get_thumbnail"
)
async def get_thumbnail(
image_type: ImageType = Path(description="The type of image to get"),
image_name: str = Path(description="The name of the image to get"),
) -> FileResponse | Response:
"""Gets a thumbnail"""
path = ApiDependencies.invoker.services.images.get_path(
image_type=image_type, image_name=image_name, is_thumbnail=True
)
if ApiDependencies.invoker.services.images.validate_path(path):
return FileResponse(path)
else:
raise HTTPException(status_code=404)
@images_router.post(
"/",
"/uploads/",
operation_id="upload_image",
responses={
201: {"description": "The image was uploaded successfully"},
201: {
"description": "The image was uploaded successfully",
"model": ImageResponse,
},
415: {"description": "Image upload failed"},
},
status_code=201,
response_model=ImageDTO,
)
async def upload_image(
file: UploadFile,
request: Request,
response: Response,
image_category: ImageCategory = Query(description="The category of the image"),
is_intermediate: bool = Query(description="Whether this is an intermediate image"),
session_id: Optional[str] = Query(
default=None, description="The session ID associated with this upload, if any"
),
) -> ImageDTO:
"""Uploads an image"""
file: UploadFile, request: Request, response: Response
) -> ImageResponse:
if not file.content_type.startswith("image"):
raise HTTPException(status_code=415, detail="Not an image")
contents = await file.read()
try:
pil_image = Image.open(io.BytesIO(contents))
img = Image.open(io.BytesIO(contents))
except:
# Error opening the image
raise HTTPException(status_code=415, detail="Failed to read image")
try:
image_dto = ApiDependencies.invoker.services.images.create(
image=pil_image,
image_origin=ResourceOrigin.EXTERNAL,
image_category=image_category,
session_id=session_id,
is_intermediate=is_intermediate,
)
filename = f"{uuid.uuid4()}_{str(int(datetime.now(timezone.utc).timestamp()))}.png"
(image_path, thumbnail_path, ctime) = ApiDependencies.invoker.services.images.save(
ImageType.UPLOAD, filename, img
)
response.status_code = 201
response.headers["Location"] = image_dto.image_url
# TODO: handle old `sd-metadata` style metadata
invokeai_metadata = img.info.get("invokeai", None)
return image_dto
except Exception as e:
raise HTTPException(status_code=500, detail="Failed to create image")
if invokeai_metadata is not None:
invokeai_metadata = InvokeAIMetadata(**json.loads(invokeai_metadata))
# TODO: should creation of this object should happen elsewhere?
res = ImageResponse(
image_type=ImageType.UPLOAD,
image_name=filename,
image_url=f"api/v1/images/{ImageType.UPLOAD.value}/{filename}",
thumbnail_url=f"api/v1/images/{ImageType.UPLOAD.value}/thumbnails/{os.path.splitext(filename)[0]}.webp",
metadata=ImageMetadata(
created=ctime,
width=img.width,
height=img.height,
mode=img.mode,
invokeai=invokeai_metadata,
),
)
@images_router.delete("/{image_name}", operation_id="delete_image")
async def delete_image(
image_name: str = Path(description="The name of the image to delete"),
) -> None:
"""Deletes an image"""
response.status_code = 201
response.headers["Location"] = request.url_for(
"get_image", image_type=ImageType.UPLOAD.value, image_name=filename
)
try:
ApiDependencies.invoker.services.images.delete(image_name)
except Exception as e:
# TODO: Does this need any exception handling at all?
pass
@images_router.patch(
"/{image_name}",
operation_id="update_image",
response_model=ImageDTO,
)
async def update_image(
image_name: str = Path(description="The name of the image to update"),
image_changes: ImageRecordChanges = Body(
description="The changes to apply to the image"
),
) -> ImageDTO:
"""Updates an image"""
try:
return ApiDependencies.invoker.services.images.update(image_name, image_changes)
except Exception as e:
raise HTTPException(status_code=400, detail="Failed to update image")
@images_router.get(
"/{image_name}/metadata",
operation_id="get_image_metadata",
response_model=ImageDTO,
)
async def get_image_metadata(
image_name: str = Path(description="The name of image to get"),
) -> ImageDTO:
"""Gets an image's metadata"""
try:
return ApiDependencies.invoker.services.images.get_dto(image_name)
except Exception as e:
raise HTTPException(status_code=404)
@images_router.get(
"/{image_name}",
operation_id="get_image_full",
response_class=Response,
responses={
200: {
"description": "Return the full-resolution image",
"content": {"image/png": {}},
},
404: {"description": "Image not found"},
},
)
async def get_image_full(
image_name: str = Path(description="The name of full-resolution image file to get"),
) -> FileResponse:
"""Gets a full-resolution image file"""
try:
path = ApiDependencies.invoker.services.images.get_path(image_name)
if not ApiDependencies.invoker.services.images.validate_path(path):
raise HTTPException(status_code=404)
return FileResponse(
path,
media_type="image/png",
filename=image_name,
content_disposition_type="inline",
)
except Exception as e:
raise HTTPException(status_code=404)
@images_router.get(
"/{image_name}/thumbnail",
operation_id="get_image_thumbnail",
response_class=Response,
responses={
200: {
"description": "Return the image thumbnail",
"content": {"image/webp": {}},
},
404: {"description": "Image not found"},
},
)
async def get_image_thumbnail(
image_name: str = Path(description="The name of thumbnail image file to get"),
) -> FileResponse:
"""Gets a thumbnail image file"""
try:
path = ApiDependencies.invoker.services.images.get_path(
image_name, thumbnail=True
)
if not ApiDependencies.invoker.services.images.validate_path(path):
raise HTTPException(status_code=404)
return FileResponse(
path, media_type="image/webp", content_disposition_type="inline"
)
except Exception as e:
raise HTTPException(status_code=404)
@images_router.get(
"/{image_name}/urls",
operation_id="get_image_urls",
response_model=ImageUrlsDTO,
)
async def get_image_urls(
image_name: str = Path(description="The name of the image whose URL to get"),
) -> ImageUrlsDTO:
"""Gets an image and thumbnail URL"""
try:
image_url = ApiDependencies.invoker.services.images.get_url(image_name)
thumbnail_url = ApiDependencies.invoker.services.images.get_url(
image_name, thumbnail=True
)
return ImageUrlsDTO(
image_name=image_name,
image_url=image_url,
thumbnail_url=thumbnail_url,
)
except Exception as e:
raise HTTPException(status_code=404)
return res
@images_router.get(
"/",
operation_id="list_images_with_metadata",
response_model=OffsetPaginatedResults[ImageDTO],
operation_id="list_images",
responses={200: {"model": PaginatedResults[ImageResponse]}},
)
async def list_images_with_metadata(
image_origin: Optional[ResourceOrigin] = Query(
default=None, description="The origin of images to list"
async def list_images(
image_type: ImageType = Query(
default=ImageType.RESULT, description="The type of images to get"
),
categories: Optional[list[ImageCategory]] = Query(
default=None, description="The categories of image to include"
),
is_intermediate: Optional[bool] = Query(
default=None, description="Whether to list intermediate images"
),
board_id: Optional[str] = Query(
default=None, description="The board id to filter by"
),
offset: int = Query(default=0, description="The page offset"),
limit: int = Query(default=10, description="The number of images per page"),
) -> OffsetPaginatedResults[ImageDTO]:
page: int = Query(default=0, description="The page of images to get"),
per_page: int = Query(default=10, description="The number of images per page"),
) -> PaginatedResults[ImageResponse]:
"""Gets a list of images"""
image_dtos = ApiDependencies.invoker.services.images.get_many(
offset,
limit,
image_origin,
categories,
is_intermediate,
board_id,
)
return image_dtos
result = ApiDependencies.invoker.services.images.list(image_type, page, per_page)
return result

81
invokeai/app/api/routers/models.py
View File

@ -1,14 +1,17 @@
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654) and 2023 Kent Keirsey (https://github.com/hipsterusername)
from typing import Literal, Optional, Union
import shutil
import asyncio
from typing import Annotated, Any, List, Literal, Optional, Union
from fastapi import Query
from fastapi.routing import APIRouter, HTTPException
from pydantic import BaseModel, Field, parse_obj_as
from pathlib import Path
from ..dependencies import ApiDependencies
from invokeai.backend import BaseModelType, ModelType
from invokeai.backend.model_management.models import OPENAPI_MODEL_CONFIGS, SchedulerPredictionType
MODEL_CONFIGS = Union[tuple(OPENAPI_MODEL_CONFIGS)]
from invokeai.backend.globals import Globals, global_converted_ckpts_dir
from invokeai.backend.args import Args
models_router = APIRouter(prefix="/v1/models", tags=["models"])
@ -20,15 +23,6 @@ class VaeRepo(BaseModel):
class ModelInfo(BaseModel):
description: Optional[str] = Field(description="A description of the model")
model_name: str = Field(description="The name of the model")
model_type: str = Field(description="The type of the model")
class DiffusersModelInfo(ModelInfo):
format: Literal['folder'] = 'folder'
vae: Optional[VaeRepo] = Field(description="The VAE repo to use for this model")
repo_id: Optional[str] = Field(description="The repo ID to use for this model")
path: Optional[str] = Field(description="The path to the model")
class CkptModelInfo(ModelInfo):
format: Literal['ckpt'] = 'ckpt'
@ -39,8 +33,12 @@ class CkptModelInfo(ModelInfo):
width: Optional[int] = Field(description="The width of the model")
height: Optional[int] = Field(description="The height of the model")
class SafetensorsModelInfo(CkptModelInfo):
format: Literal['safetensors'] = 'safetensors'
class DiffusersModelInfo(ModelInfo):
format: Literal['diffusers'] = 'diffusers'
vae: Optional[VaeRepo] = Field(description="The VAE repo to use for this model")
repo_id: Optional[str] = Field(description="The repo ID to use for this model")
path: Optional[str] = Field(description="The path to the model")
class CreateModelRequest(BaseModel):
name: str = Field(description="The name of the model")
@ -51,21 +49,18 @@ class CreateModelResponse(BaseModel):
info: Union[CkptModelInfo, DiffusersModelInfo] = Field(discriminator="format", description="The model info")
status: str = Field(description="The status of the API response")
class ImportModelRequest(BaseModel):
name: str = Field(description="A model path, repo_id or URL to import")
prediction_type: Optional[Literal['epsilon','v_prediction','sample']] = Field(description='Prediction type for SDv2 checkpoint files')
class ConversionRequest(BaseModel):
name: str = Field(description="The name of the new model")
info: CkptModelInfo = Field(description="The converted model info")
save_location: str = Field(description="The path to save the converted model weights")
class ConvertedModelResponse(BaseModel):
name: str = Field(description="The name of the new model")
info: DiffusersModelInfo = Field(description="The converted model info")
class ModelsList(BaseModel):
models: list[MODEL_CONFIGS]
models: dict[str, Annotated[Union[(CkptModelInfo,DiffusersModelInfo)], Field(discriminator="format")]]
@models_router.get(
@ -73,16 +68,9 @@ class ModelsList(BaseModel):
operation_id="list_models",
responses={200: {"model": ModelsList }},
)
async def list_models(
base_model: Optional[BaseModelType] = Query(
default=None, description="Base model"
),
model_type: Optional[ModelType] = Query(
default=None, description="The type of model to get"
),
) -> ModelsList:
async def list_models() -> ModelsList:
"""Gets a list of models"""
models_raw = ApiDependencies.invoker.services.model_manager.list_models(base_model, model_type)
models_raw = ApiDependencies.invoker.services.model_manager.list_models()
models = parse_obj_as(ModelsList, { "models": models_raw })
return models
@ -108,28 +96,6 @@ async def update_model(
return model_response
@models_router.post(
"/",
operation_id="import_model",
responses={200: {"status": "success"}},
)
async def import_model(
model_request: ImportModelRequest
) -> None:
""" Add Model """
items_to_import = set([model_request.name])
prediction_types = { x.value: x for x in SchedulerPredictionType }
logger = ApiDependencies.invoker.services.logger
installed_models = ApiDependencies.invoker.services.model_manager.heuristic_import(
items_to_import = items_to_import,
prediction_type_helper = lambda x: prediction_types.get(model_request.prediction_type)
)
if len(installed_models) > 0:
logger.info(f'Successfully imported {model_request.name}')
else:
logger.error(f'Model {model_request.name} not imported')
raise HTTPException(status_code=500, detail=f'Model {model_request.name} not imported')
@models_router.delete(
"/{model_name}",
@ -146,20 +112,19 @@ async def import_model(
async def delete_model(model_name: str) -> None:
"""Delete Model"""
model_names = ApiDependencies.invoker.services.model_manager.model_names()
logger = ApiDependencies.invoker.services.logger
model_exists = model_name in model_names
# check if model exists
logger.info(f"Checking for model {model_name}...")
print(f">> Checking for model {model_name}...")
if model_exists:
logger.info(f"Deleting Model: {model_name}")
print(f">> Deleting Model: {model_name}")
ApiDependencies.invoker.services.model_manager.del_model(model_name, delete_files=True)
logger.info(f"Model Deleted: {model_name}")
print(f">> Model Deleted: {model_name}")
raise HTTPException(status_code=204, detail=f"Model '{model_name}' deleted successfully")
else:
logger.error("Model not found")
print(f">> Model not found")
raise HTTPException(status_code=404, detail=f"Model '{model_name}' not found")
@ -283,4 +248,4 @@ async def delete_model(model_name: str) -> None:
# )
# print(f">> Models Merged: {models_to_merge}")
# print(f">> New Model Added: {model_merge_info['merged_model_name']}")
# except Exception as e:
# except Exception as e:

43
invokeai/app/api/routers/sessions.py
View File

@ -2,7 +2,8 @@
from typing import Annotated, List, Optional, Union
from fastapi import Body, HTTPException, Path, Query, Response
from fastapi import Body, Path, Query
from fastapi.responses import Response
from fastapi.routing import APIRouter
from pydantic.fields import Field
@ -75,7 +76,7 @@ async def get_session(
"""Gets a session"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
else:
return session
@ -98,7 +99,7 @@ async def add_node(
"""Adds a node to the graph"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
try:
session.add_node(node)
@ -107,9 +108,9 @@ async def add_node(
) # TODO: can this be done automatically, or add node through an API?
return session.id
except NodeAlreadyExecutedError:
raise HTTPException(status_code=400)
return Response(status_code=400)
except IndexError:
raise HTTPException(status_code=400)
return Response(status_code=400)
@session_router.put(
@ -131,7 +132,7 @@ async def update_node(
"""Updates a node in the graph and removes all linked edges"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
try:
session.update_node(node_path, node)
@ -140,9 +141,9 @@ async def update_node(
) # TODO: can this be done automatically, or add node through an API?
return session
except NodeAlreadyExecutedError:
raise HTTPException(status_code=400)
return Response(status_code=400)
except IndexError:
raise HTTPException(status_code=400)
return Response(status_code=400)
@session_router.delete(
@ -161,7 +162,7 @@ async def delete_node(
"""Deletes a node in the graph and removes all linked edges"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
try:
session.delete_node(node_path)
@ -170,9 +171,9 @@ async def delete_node(
) # TODO: can this be done automatically, or add node through an API?
return session
except NodeAlreadyExecutedError:
raise HTTPException(status_code=400)
return Response(status_code=400)
except IndexError:
raise HTTPException(status_code=400)
return Response(status_code=400)
@session_router.post(
@ -191,7 +192,7 @@ async def add_edge(
"""Adds an edge to the graph"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
try:
session.add_edge(edge)
@ -200,9 +201,9 @@ async def add_edge(
) # TODO: can this be done automatically, or add node through an API?
return session
except NodeAlreadyExecutedError:
raise HTTPException(status_code=400)
return Response(status_code=400)
except IndexError:
raise HTTPException(status_code=400)
return Response(status_code=400)
# TODO: the edge being in the path here is really ugly, find a better solution
@ -225,7 +226,7 @@ async def delete_edge(
"""Deletes an edge from the graph"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
try:
edge = Edge(
@ -238,9 +239,9 @@ async def delete_edge(
) # TODO: can this be done automatically, or add node through an API?
return session
except NodeAlreadyExecutedError:
raise HTTPException(status_code=400)
return Response(status_code=400)
except IndexError:
raise HTTPException(status_code=400)
return Response(status_code=400)
@session_router.put(
@ -258,14 +259,14 @@ async def invoke_session(
all: bool = Query(
default=False, description="Whether or not to invoke all remaining invocations"
),
) -> Response:
) -> None:
"""Invokes a session"""
session = ApiDependencies.invoker.services.graph_execution_manager.get(session_id)
if session is None:
raise HTTPException(status_code=404)
return Response(status_code=404)
if session.is_complete():
raise HTTPException(status_code=400)
return Response(status_code=400)
ApiDependencies.invoker.invoke(session, invoke_all=all)
return Response(status_code=202)
@ -280,7 +281,7 @@ async def invoke_session(
)
async def cancel_session_invoke(
session_id: str = Path(description="The id of the session to cancel"),
) -> Response:
) -> None:
"""Invokes a session"""
ApiDependencies.invoker.cancel(session_id)
return Response(status_code=202)

76
invokeai/app/api_app.py
View File

@ -3,7 +3,6 @@ import asyncio
from inspect import signature
import uvicorn
from fastapi import FastAPI
from fastapi.middleware.cors import CORSMiddleware
from fastapi.openapi.docs import get_redoc_html, get_swagger_ui_html
@ -11,21 +10,13 @@ from fastapi.openapi.utils import get_openapi
from fastapi.staticfiles import StaticFiles
from fastapi_events.handlers.local import local_handler
from fastapi_events.middleware import EventHandlerASGIMiddleware
from pathlib import Path
from pydantic.schema import schema
#This should come early so that modules can log their initialization properly
from .services.config import InvokeAIAppConfig
from ..backend.util.logging import InvokeAILogger
app_config = InvokeAIAppConfig.get_config()
app_config.parse_args()
logger = InvokeAILogger.getLogger(config=app_config)
import invokeai.frontend.web as web_dir
from ..backend import Args
from .api.dependencies import ApiDependencies
from .api.routers import sessions, models, images, boards, board_images
from .api.routers import images, sessions, models
from .api.sockets import SocketIO
from .invocations import *
from .invocations.baseinvocation import BaseInvocation
# Create the app
@ -42,21 +33,30 @@ app.add_middleware(
middleware_id=event_handler_id,
)
# Add CORS
# TODO: use configuration for this
origins = []
app.add_middleware(
CORSMiddleware,
allow_origins=origins,
allow_credentials=True,
allow_methods=["*"],
allow_headers=["*"],
)
socket_io = SocketIO(app)
config = {}
# Add startup event to load dependencies
@app.on_event("startup")
async def startup_event():
app.add_middleware(
CORSMiddleware,
allow_origins=app_config.allow_origins,
allow_credentials=app_config.allow_credentials,
allow_methods=app_config.allow_methods,
allow_headers=app_config.allow_headers,
)
config = Args()
config.parse_args()
ApiDependencies.initialize(
config=app_config, event_handler_id=event_handler_id, logger=logger
config=config, event_handler_id=event_handler_id
)
@ -74,13 +74,10 @@ async def shutdown_event():
app.include_router(sessions.session_router, prefix="/api")
app.include_router(models.models_router, prefix="/api")
app.include_router(images.images_router, prefix="/api")
app.include_router(boards.boards_router, prefix="/api")
app.include_router(models.models_router, prefix="/api")
app.include_router(board_images.board_images_router, prefix="/api")
# Build a custom OpenAPI to include all outputs
# TODO: can outputs be included on metadata of invocation schemas somehow?
@ -120,22 +117,6 @@ def custom_openapi():
invoker_schema["output"] = outputs_ref
from invokeai.backend.model_management.models import get_model_config_enums
for model_config_format_enum in set(get_model_config_enums()):
name = model_config_format_enum.__qualname__
if name in openapi_schema["components"]["schemas"]:
# print(f"Config with name {name} already defined")
continue
# "BaseModelType":{"title":"BaseModelType","description":"An enumeration.","enum":["sd-1","sd-2"],"type":"string"}
openapi_schema["components"]["schemas"][name] = dict(
title=name,
description="An enumeration.",
type="string",
enum=list(v.value for v in model_config_format_enum),
)
app.openapi_schema = openapi_schema
return app.openapi_schema
@ -143,7 +124,8 @@ def custom_openapi():
app.openapi = custom_openapi
# Override API doc favicons
app.mount("/static", StaticFiles(directory=Path(web_dir.__path__[0], 'static/dream_web')), name="static")
app.mount("/static", StaticFiles(directory="static/dream_web"), name="static")
@app.get("/docs", include_in_schema=False)
def overridden_swagger():
@ -163,20 +145,16 @@ def overridden_redoc():
)
# Must mount *after* the other routes else it borks em
app.mount("/",
StaticFiles(directory=Path(web_dir.__path__[0],"dist"),
html=True
), name="ui"
)
def invoke_api():
# Start our own event loop for eventing usage
# TODO: determine if there's a better way to do this
loop = asyncio.new_event_loop()
config = uvicorn.Config(app=app, host=app_config.host, port=app_config.port, loop=loop)
config = uvicorn.Config(app=app, host="0.0.0.0", port=9090, loop=loop)
# Use access_log to turn off logging
server = uvicorn.Server(config)
loop.run_until_complete(server.serve())
if __name__ == "__main__":
invoke_api()

23
invokeai/app/cli/commands.py
View File

@ -2,15 +2,14 @@
from abc import ABC, abstractmethod
import argparse
from typing import Any, Callable, Iterable, Literal, Union, get_args, get_origin, get_type_hints
from typing import Any, Callable, Iterable, Literal, get_args, get_origin, get_type_hints
from pydantic import BaseModel, Field
import networkx as nx
import matplotlib.pyplot as plt
import invokeai.backend.util.logging as logger
from ..invocations.baseinvocation import BaseInvocation
from ..invocations.image import ImageField
from ..services.graph import GraphExecutionState, LibraryGraph, Edge
from ..services.graph import GraphExecutionState, LibraryGraph, GraphInvocation, Edge
from ..services.invoker import Invoker
@ -230,7 +229,7 @@ class HistoryCommand(BaseCommand):
for i in range(min(self.count, len(history))):
entry_id = history[-1 - i]
entry = context.get_session().graph.get_node(entry_id)
logger.info(f"{entry_id}: {get_invocation_command(entry)}")
print(f"{entry_id}: {get_invocation_command(entry)}")
class SetDefaultCommand(BaseCommand):
@ -285,19 +284,3 @@ class DrawExecutionGraphCommand(BaseCommand):
nx.draw_networkx_labels(nxgraph, pos, font_size=20, font_family="sans-serif")
plt.axis("off")
plt.show()
class SortedHelpFormatter(argparse.HelpFormatter):
def _iter_indented_subactions(self, action):
try:
get_subactions = action._get_subactions
except AttributeError:
pass
else:
self._indent()
if isinstance(action, argparse._SubParsersAction):
for subaction in sorted(get_subactions(), key=lambda x: x.dest):
yield subaction
else:
for subaction in get_subactions():
yield subaction
self._dedent()

14
invokeai/app/cli/completer.py
View File

@ -10,11 +10,9 @@ import shlex
from pathlib import Path
from typing import List, Dict, Literal, get_args, get_type_hints, get_origin
import invokeai.backend.util.logging as logger
from ...backend import ModelManager
from ...backend import ModelManager, Globals
from ..invocations.baseinvocation import BaseInvocation
from .commands import BaseCommand
from ..services.invocation_services import InvocationServices
# singleton object, class variable
completer = None
@ -132,13 +130,13 @@ class Completer(object):
readline.redisplay()
self.linebuffer = None
def set_autocompleter(services: InvocationServices) -> Completer:
def set_autocompleter(model_manager: ModelManager) -> Completer:
global completer
if completer:
return completer
completer = Completer(services.model_manager)
completer = Completer(model_manager)
readline.set_completer(completer.complete)
# pyreadline3 does not have a set_auto_history() method
@ -154,7 +152,7 @@ def set_autocompleter(services: InvocationServices) -> Completer:
readline.parse_and_bind("set skip-completed-text on")
readline.parse_and_bind("set show-all-if-ambiguous on")
histfile = Path(services.configuration.root_dir / ".invoke_history")
histfile = Path(Globals.root, ".invoke_history")
try:
readline.read_history_file(histfile)
readline.set_history_length(1000)
@ -162,8 +160,8 @@ def set_autocompleter(services: InvocationServices) -> Completer:
pass
except OSError: # file likely corrupted
newname = f"{histfile}.old"
logger.error(
f"Your history file {histfile} couldn't be loaded and may be corrupted. Renaming it to {newname}"
print(
f"## Your history file {histfile} couldn't be loaded and may be corrupted. Renaming it to {newname}"
)
histfile.replace(Path(newname))
atexit.register(readline.write_history_file, histfile)

165
invokeai/app/cli_app.py
View File

@ -4,53 +4,34 @@ import argparse
import os
import re
import shlex
import sys
import time
from typing import Union, get_type_hints
from typing import (
Union,
get_type_hints,
)
from pydantic import BaseModel, ValidationError
from pydantic import BaseModel
from pydantic.fields import Field
# This should come early so that the logger can pick up its configuration options
from .services.config import InvokeAIAppConfig
from invokeai.backend.util.logging import InvokeAILogger
config = InvokeAIAppConfig.get_config()
config.parse_args()
logger = InvokeAILogger().getLogger(config=config)
from .services.default_graphs import create_system_graphs
from invokeai.app.services.board_image_record_storage import (
SqliteBoardImageRecordStorage,
)
from invokeai.app.services.board_images import (
BoardImagesService,
BoardImagesServiceDependencies,
)
from invokeai.app.services.board_record_storage import SqliteBoardRecordStorage
from invokeai.app.services.boards import BoardService, BoardServiceDependencies
from invokeai.app.services.image_record_storage import SqliteImageRecordStorage
from invokeai.app.services.images import ImageService, ImageServiceDependencies
from invokeai.app.services.metadata import CoreMetadataService
from invokeai.app.services.resource_name import SimpleNameService
from invokeai.app.services.urls import LocalUrlService
from .services.default_graphs import (default_text_to_image_graph_id,
create_system_graphs)
from .services.latent_storage import DiskLatentsStorage, ForwardCacheLatentsStorage
from .cli.commands import (BaseCommand, CliContext, ExitCli,
SortedHelpFormatter, add_graph_parsers, add_parsers)
from ..backend import Args
from .cli.commands import BaseCommand, CliContext, ExitCli, add_graph_parsers, add_parsers, get_graph_execution_history
from .cli.completer import set_autocompleter
from .invocations import *
from .invocations.baseinvocation import BaseInvocation
from .services.events import EventServiceBase
from .services.graph import (Edge, EdgeConnection, GraphExecutionState,
GraphInvocation, LibraryGraph,
are_connection_types_compatible)
from .services.image_file_storage import DiskImageFileStorage
from .services.model_manager_initializer import get_model_manager
from .services.restoration_services import RestorationServices
from .services.graph import Edge, EdgeConnection, ExposedNodeInput, GraphExecutionState, GraphInvocation, LibraryGraph, are_connection_types_compatible
from .services.default_graphs import default_text_to_image_graph_id
from .services.image_storage import DiskImageStorage
from .services.invocation_queue import MemoryInvocationQueue
from .services.invocation_services import InvocationServices
from .services.invoker import Invoker
from .services.model_manager_service import ModelManagerService
from .services.processor import DefaultInvocationProcessor
from .services.restoration_services import RestorationServices
from .services.sqlite import SqliteItemStorage
@ -61,6 +42,7 @@ class CliCommand(BaseModel):
class InvalidArgs(Exception):
pass
def add_invocation_args(command_parser):
# Add linking capability
command_parser.add_argument(
@ -81,7 +63,7 @@ def add_invocation_args(command_parser):
def get_command_parser(services: InvocationServices) -> argparse.ArgumentParser:
# Create invocation parser
parser = argparse.ArgumentParser(formatter_class=SortedHelpFormatter)
parser = argparse.ArgumentParser()
def exit(*args, **kwargs):
raise InvalidArgs
@ -198,105 +180,51 @@ def invoke_all(context: CliContext):
# Print any errors
if context.session.has_error():
for n in context.session.errors:
context.invoker.services.logger.error(
print(
f"Error in node {n} (source node {context.session.prepared_source_mapping[n]}): {context.session.errors[n]}"
)
raise SessionError()
def invoke_cli():
# get the optional list of invocations to execute on the command line
parser = config.get_parser()
parser.add_argument('commands',nargs='*')
invocation_commands = parser.parse_args().commands
# get the optional file to read commands from.
# Simplest is to use it for STDIN
if infile := config.from_file:
sys.stdin = open(infile,"r")
model_manager = ModelManagerService(config,logger)
def invoke_cli():
config = Args()
config.parse_args()
model_manager = get_model_manager(config)
# This initializes the autocompleter and returns it.
# Currently nothing is done with the returned Completer
# object, but the object can be used to change autocompletion
# behavior on the fly, if desired.
completer = set_autocompleter(model_manager)
events = EventServiceBase()
output_folder = config.output_path
output_folder = os.path.abspath(
os.path.join(os.path.dirname(__file__), "../../../outputs")
)
# TODO: build a file/path manager?
if config.use_memory_db:
db_location = ":memory:"
else:
db_location = config.db_path
db_location.parent.mkdir(parents=True,exist_ok=True)
db_location = os.path.join(output_folder, "invokeai.db")
logger.info(f'InvokeAI database location is "{db_location}"')
graph_execution_manager = SqliteItemStorage[GraphExecutionState](
filename=db_location, table_name="graph_executions"
)
urls = LocalUrlService()
metadata = CoreMetadataService()
image_record_storage = SqliteImageRecordStorage(db_location)
image_file_storage = DiskImageFileStorage(f"{output_folder}/images")
names = SimpleNameService()
board_record_storage = SqliteBoardRecordStorage(db_location)
board_image_record_storage = SqliteBoardImageRecordStorage(db_location)
boards = BoardService(
services=BoardServiceDependencies(
board_image_record_storage=board_image_record_storage,
board_record_storage=board_record_storage,
image_record_storage=image_record_storage,
url=urls,
logger=logger,
)
)
board_images = BoardImagesService(
services=BoardImagesServiceDependencies(
board_image_record_storage=board_image_record_storage,
board_record_storage=board_record_storage,
image_record_storage=image_record_storage,
url=urls,
logger=logger,
)
)
images = ImageService(
services=ImageServiceDependencies(
board_image_record_storage=board_image_record_storage,
image_record_storage=image_record_storage,
image_file_storage=image_file_storage,
metadata=metadata,
url=urls,
logger=logger,
names=names,
graph_execution_manager=graph_execution_manager,
)
)
services = InvocationServices(
model_manager=model_manager,
events=events,
latents = ForwardCacheLatentsStorage(DiskLatentsStorage(f'{output_folder}/latents')),
images=images,
boards=boards,
board_images=board_images,
images=DiskImageStorage(f'{output_folder}/images'),
queue=MemoryInvocationQueue(),
graph_library=SqliteItemStorage[LibraryGraph](
filename=db_location, table_name="graphs"
),
graph_execution_manager=graph_execution_manager,
graph_execution_manager=SqliteItemStorage[GraphExecutionState](
filename=db_location, table_name="graph_executions"
),
processor=DefaultInvocationProcessor(),
restoration=RestorationServices(config,logger=logger),
logger=logger,
configuration=config,
restoration=RestorationServices(config),
)
system_graphs = create_system_graphs(services.graph_library)
system_graph_names = set([g.name for g in system_graphs])
set_autocompleter(services)
invoker = Invoker(services)
session: GraphExecutionState = invoker.create_execution_state()
@ -308,18 +236,10 @@ def invoke_cli():
# print(services.session_manager.list())
context = CliContext(invoker, session, parser)
set_autocompleter(services)
command_line_args_exist = len(invocation_commands) > 0
done = False
while not done:
while True:
try:
if command_line_args_exist:
cmd_input = invocation_commands.pop(0)
done = len(invocation_commands) == 0
else:
cmd_input = input("invoke> ")
cmd_input = input("invoke> ")
except (KeyboardInterrupt, EOFError):
# Ctrl-c exits
break
@ -440,15 +360,12 @@ def invoke_cli():
invoke_all(context)
except InvalidArgs:
invoker.services.logger.warning('Invalid command, use "help" to list commands')
print('Invalid command, use "help" to list commands')
continue
except ValidationError:
invoker.services.logger.warning('Invalid command arguments, run "<command> --help" for summary')
except SessionError:
# Start a new session
invoker.services.logger.warning("Session error: creating a new session")
print("Session error: creating a new session")
context.reset()
except ExitCli:

9
invokeai/app/invocations/baseinvocation.py
View File

@ -1,15 +1,12 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
from __future__ import annotations
from abc import ABC, abstractmethod
from inspect import signature
from typing import get_args, get_type_hints, Dict, List, Literal, TypedDict, TYPE_CHECKING
from typing import get_args, get_type_hints, Dict, List, Literal, TypedDict
from pydantic import BaseModel, Field
if TYPE_CHECKING:
from ..services.invocation_services import InvocationServices
from ..services.invocation_services import InvocationServices
class InvocationContext:
@ -78,7 +75,6 @@ class BaseInvocation(ABC, BaseModel):
#fmt: off
id: str = Field(description="The id of this node. Must be unique among all nodes.")
is_intermediate: bool = Field(default=False, description="Whether or not this node is an intermediate node.")
#fmt: on
@ -96,7 +92,6 @@ class UIConfig(TypedDict, total=False):
"image",
"latents",
"model",
"control",
],
]
tags: List[str]

50
invokeai/app/invocations/collections.py
View File

@ -1,14 +1,14 @@
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654) and the InvokeAI Team
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654)
from typing import Literal
from typing import Literal, Optional
import numpy as np
from pydantic import Field, validator
from invokeai.app.util.misc import SEED_MAX, get_random_seed
import numpy.random
from pydantic import Field
from .baseinvocation import (
BaseInvocation,
InvocationConfig,
InvocationContext,
BaseInvocationOutput,
)
@ -22,17 +22,9 @@ class IntCollectionOutput(BaseInvocationOutput):
# Outputs
collection: list[int] = Field(default=[], description="The int collection")
class FloatCollectionOutput(BaseInvocationOutput):
"""A collection of floats"""
type: Literal["float_collection"] = "float_collection"
# Outputs
collection: list[float] = Field(default=[], description="The float collection")
class RangeInvocation(BaseInvocation):
"""Creates a range of numbers from start to stop with step"""
"""Creates a range"""
type: Literal["range"] = "range"
@ -41,34 +33,12 @@ class RangeInvocation(BaseInvocation):
stop: int = Field(default=10, description="The stop of the range")
step: int = Field(default=1, description="The step of the range")
@validator("stop")
def stop_gt_start(cls, v, values):
if "start" in values and v <= values["start"]:
raise ValueError("stop must be greater than start")
return v
def invoke(self, context: InvocationContext) -> IntCollectionOutput:
return IntCollectionOutput(
collection=list(range(self.start, self.stop, self.step))
)
class RangeOfSizeInvocation(BaseInvocation):
"""Creates a range from start to start + size with step"""
type: Literal["range_of_size"] = "range_of_size"
# Inputs
start: int = Field(default=0, description="The start of the range")
size: int = Field(default=1, description="The number of values")
step: int = Field(default=1, description="The step of the range")
def invoke(self, context: InvocationContext) -> IntCollectionOutput:
return IntCollectionOutput(
collection=list(range(self.start, self.start + self.size, self.step))
)
class RandomRangeInvocation(BaseInvocation):
"""Creates a collection of random numbers"""
@ -80,11 +50,11 @@ class RandomRangeInvocation(BaseInvocation):
default=np.iinfo(np.int32).max, description="The exclusive high value"
)
size: int = Field(default=1, description="The number of values to generate")
seed: int = Field(
seed: Optional[int] = Field(
ge=0,
le=SEED_MAX,
description="The seed for the RNG (omit for random)",
default_factory=get_random_seed,
le=np.iinfo(np.int32).max,
description="The seed for the RNG",
default_factory=lambda: numpy.random.randint(0, np.iinfo(np.int32).max),
)
def invoke(self, context: InvocationContext) -> IntCollectionOutput:

266
invokeai/app/invocations/compel.py
View File

@ -1,266 +0,0 @@
from typing import Literal, Optional, Union
from pydantic import BaseModel, Field
from contextlib import ExitStack
import re
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext, InvocationConfig
from .model import ClipField
from ...backend.util.devices import torch_dtype
from ...backend.stable_diffusion.diffusion import InvokeAIDiffuserComponent
from ...backend.model_management import BaseModelType, ModelType, SubModelType
from ...backend.model_management.lora import ModelPatcher
from compel import Compel
from compel.prompt_parser import (
Blend,
CrossAttentionControlSubstitute,
FlattenedPrompt,
Fragment, Conjunction,
)
class ConditioningField(BaseModel):
conditioning_name: Optional[str] = Field(default=None, description="The name of conditioning data")
class Config:
schema_extra = {"required": ["conditioning_name"]}
class CompelOutput(BaseInvocationOutput):
"""Compel parser output"""
#fmt: off
type: Literal["compel_output"] = "compel_output"
conditioning: ConditioningField = Field(default=None, description="Conditioning")
#fmt: on
class CompelInvocation(BaseInvocation):
"""Parse prompt using compel package to conditioning."""
type: Literal["compel"] = "compel"
prompt: str = Field(default="", description="Prompt")
clip: ClipField = Field(None, description="Clip to use")
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"title": "Prompt (Compel)",
"tags": ["prompt", "compel"],
"type_hints": {
"model": "model"
}
},
}
def invoke(self, context: InvocationContext) -> CompelOutput:
tokenizer_info = context.services.model_manager.get_model(
**self.clip.tokenizer.dict(),
)
text_encoder_info = context.services.model_manager.get_model(
**self.clip.text_encoder.dict(),
)
with tokenizer_info as orig_tokenizer,\
text_encoder_info as text_encoder:
loras = [(context.services.model_manager.get_model(**lora.dict(exclude={"weight"})).context.model, lora.weight) for lora in self.clip.loras]
ti_list = []
for trigger in re.findall(r"<[a-zA-Z0-9., _-]+>", self.prompt):
name = trigger[1:-1]
try:
ti_list.append(
context.services.model_manager.get_model(
model_name=name,
base_model=self.clip.text_encoder.base_model,
model_type=ModelType.TextualInversion,
).context.model
)
except Exception:
#print(e)
#import traceback
#print(traceback.format_exc())
print(f"Warn: trigger: \"{trigger}\" not found")
with ModelPatcher.apply_lora_text_encoder(text_encoder, loras),\
ModelPatcher.apply_ti(orig_tokenizer, text_encoder, ti_list) as (tokenizer, ti_manager):
compel = Compel(
tokenizer=tokenizer,
text_encoder=text_encoder,
textual_inversion_manager=ti_manager,
dtype_for_device_getter=torch_dtype,
truncate_long_prompts=True, # TODO:
)
conjunction = Compel.parse_prompt_string(self.prompt)
prompt: Union[FlattenedPrompt, Blend] = conjunction.prompts[0]
if context.services.configuration.log_tokenization:
log_tokenization_for_prompt_object(prompt, tokenizer)
c, options = compel.build_conditioning_tensor_for_prompt_object(prompt)
# TODO: long prompt support
#if not self.truncate_long_prompts:
# [c, uc] = compel.pad_conditioning_tensors_to_same_length([c, uc])
ec = InvokeAIDiffuserComponent.ExtraConditioningInfo(
tokens_count_including_eos_bos=get_max_token_count(tokenizer, conjunction),
cross_attention_control_args=options.get("cross_attention_control", None),
)
conditioning_name = f"{context.graph_execution_state_id}_{self.id}_conditioning"
# TODO: hacky but works ;D maybe rename latents somehow?
context.services.latents.save(conditioning_name, (c, ec))
return CompelOutput(
conditioning=ConditioningField(
conditioning_name=conditioning_name,
),
)
def get_max_token_count(
tokenizer, prompt: Union[FlattenedPrompt, Blend, Conjunction], truncate_if_too_long=False
) -> int:
if type(prompt) is Blend:
blend: Blend = prompt
return max(
[
get_max_token_count(tokenizer, p, truncate_if_too_long)
for p in blend.prompts
]
)
elif type(prompt) is Conjunction:
conjunction: Conjunction = prompt
return sum(
[
get_max_token_count(tokenizer, p, truncate_if_too_long)
for p in conjunction.prompts
]
)
else:
return len(
get_tokens_for_prompt_object(tokenizer, prompt, truncate_if_too_long)
)
def get_tokens_for_prompt_object(
tokenizer, parsed_prompt: FlattenedPrompt, truncate_if_too_long=True
) -> [str]:
if type(parsed_prompt) is Blend:
raise ValueError(
"Blend is not supported here - you need to get tokens for each of its .children"
)
text_fragments = [
x.text
if type(x) is Fragment
else (
" ".join([f.text for f in x.original])
if type(x) is CrossAttentionControlSubstitute
else str(x)
)
for x in parsed_prompt.children
]
text = " ".join(text_fragments)
tokens = tokenizer.tokenize(text)
if truncate_if_too_long:
max_tokens_length = tokenizer.model_max_length - 2 # typically 75
tokens = tokens[0:max_tokens_length]
return tokens
def log_tokenization_for_conjunction(
c: Conjunction, tokenizer, display_label_prefix=None
):
display_label_prefix = display_label_prefix or ""
for i, p in enumerate(c.prompts):
if len(c.prompts)>1:
this_display_label_prefix = f"{display_label_prefix}(conjunction part {i + 1}, weight={c.weights[i]})"
else:
this_display_label_prefix = display_label_prefix
log_tokenization_for_prompt_object(
p,
tokenizer,
display_label_prefix=this_display_label_prefix
)
def log_tokenization_for_prompt_object(
p: Union[Blend, FlattenedPrompt], tokenizer, display_label_prefix=None
):
display_label_prefix = display_label_prefix or ""
if type(p) is Blend:
blend: Blend = p
for i, c in enumerate(blend.prompts):
log_tokenization_for_prompt_object(
c,
tokenizer,
display_label_prefix=f"{display_label_prefix}(blend part {i + 1}, weight={blend.weights[i]})",
)
elif type(p) is FlattenedPrompt:
flattened_prompt: FlattenedPrompt = p
if flattened_prompt.wants_cross_attention_control:
original_fragments = []
edited_fragments = []
for f in flattened_prompt.children:
if type(f) is CrossAttentionControlSubstitute:
original_fragments += f.original
edited_fragments += f.edited
else:
original_fragments.append(f)
edited_fragments.append(f)
original_text = " ".join([x.text for x in original_fragments])
log_tokenization_for_text(
original_text,
tokenizer,
display_label=f"{display_label_prefix}(.swap originals)",
)
edited_text = " ".join([x.text for x in edited_fragments])
log_tokenization_for_text(
edited_text,
tokenizer,
display_label=f"{display_label_prefix}(.swap replacements)",
)
else:
text = " ".join([x.text for x in flattened_prompt.children])
log_tokenization_for_text(
text, tokenizer, display_label=display_label_prefix
)
def log_tokenization_for_text(text, tokenizer, display_label=None, truncate_if_too_long=False):
"""shows how the prompt is tokenized
# usually tokens have '</w>' to indicate end-of-word,
# but for readability it has been replaced with ' '
"""
tokens = tokenizer.tokenize(text)
tokenized = ""
discarded = ""
usedTokens = 0
totalTokens = len(tokens)
for i in range(0, totalTokens):
token = tokens[i].replace("</w>", " ")
# alternate color
s = (usedTokens % 6) + 1
if truncate_if_too_long and i >= tokenizer.model_max_length:
discarded = discarded + f"\x1b[0;3{s};40m{token}"
else:
tokenized = tokenized + f"\x1b[0;3{s};40m{token}"
usedTokens += 1
if usedTokens > 0:
print(f'\n>> [TOKENLOG] Tokens {display_label or ""} ({usedTokens}):')
print(f"{tokenized}\x1b[0m")
if discarded != "":
print(f"\n>> [TOKENLOG] Tokens Discarded ({totalTokens - usedTokens}):")
print(f"{discarded}\x1b[0m")

565
invokeai/app/invocations/controlnet_image_processors.py
View File

@ -1,565 +0,0 @@
# Invocations for ControlNet image preprocessors
# initial implementation by Gregg Helt, 2023
# heavily leverages controlnet_aux package: https://github.com/patrickvonplaten/controlnet_aux
from builtins import float, bool
import cv2
import numpy as np
from typing import Literal, Optional, Union, List, Dict
from PIL import Image, ImageFilter, ImageOps
from pydantic import BaseModel, Field, validator
from ..models.image import ImageField, ImageCategory, ResourceOrigin
from .baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
InvocationContext,
InvocationConfig,
)
from controlnet_aux import (
CannyDetector,
HEDdetector,
LineartDetector,
LineartAnimeDetector,
MidasDetector,
MLSDdetector,
NormalBaeDetector,
OpenposeDetector,
PidiNetDetector,
ContentShuffleDetector,
ZoeDetector,
MediapipeFaceDetector,
SamDetector,
LeresDetector,
)
from controlnet_aux.util import HWC3, ade_palette
from .image import ImageOutput, PILInvocationConfig
CONTROLNET_DEFAULT_MODELS = [
###########################################
# lllyasviel sd v1.5, ControlNet v1.0 models
##############################################
"lllyasviel/sd-controlnet-canny",
"lllyasviel/sd-controlnet-depth",
"lllyasviel/sd-controlnet-hed",
"lllyasviel/sd-controlnet-seg",
"lllyasviel/sd-controlnet-openpose",
"lllyasviel/sd-controlnet-scribble",
"lllyasviel/sd-controlnet-normal",
"lllyasviel/sd-controlnet-mlsd",
#############################################
# lllyasviel sd v1.5, ControlNet v1.1 models
#############################################
"lllyasviel/control_v11p_sd15_canny",
"lllyasviel/control_v11p_sd15_openpose",
"lllyasviel/control_v11p_sd15_seg",
# "lllyasviel/control_v11p_sd15_depth", # broken
"lllyasviel/control_v11f1p_sd15_depth",
"lllyasviel/control_v11p_sd15_normalbae",
"lllyasviel/control_v11p_sd15_scribble",
"lllyasviel/control_v11p_sd15_mlsd",
"lllyasviel/control_v11p_sd15_softedge",
"lllyasviel/control_v11p_sd15s2_lineart_anime",
"lllyasviel/control_v11p_sd15_lineart",
"lllyasviel/control_v11p_sd15_inpaint",
# "lllyasviel/control_v11u_sd15_tile",
# problem (temporary?) with huffingface "lllyasviel/control_v11u_sd15_tile",
# so for now replace "lllyasviel/control_v11f1e_sd15_tile",
"lllyasviel/control_v11e_sd15_shuffle",
"lllyasviel/control_v11e_sd15_ip2p",
"lllyasviel/control_v11f1e_sd15_tile",
#################################################
# thibaud sd v2.1 models (ControlNet v1.0? or v1.1?
##################################################
"thibaud/controlnet-sd21-openpose-diffusers",
"thibaud/controlnet-sd21-canny-diffusers",
"thibaud/controlnet-sd21-depth-diffusers",
"thibaud/controlnet-sd21-scribble-diffusers",
"thibaud/controlnet-sd21-hed-diffusers",
"thibaud/controlnet-sd21-zoedepth-diffusers",
"thibaud/controlnet-sd21-color-diffusers",
"thibaud/controlnet-sd21-openposev2-diffusers",
"thibaud/controlnet-sd21-lineart-diffusers",
"thibaud/controlnet-sd21-normalbae-diffusers",
"thibaud/controlnet-sd21-ade20k-diffusers",
##############################################
# ControlNetMediaPipeface, ControlNet v1.1
##############################################
# ["CrucibleAI/ControlNetMediaPipeFace", "diffusion_sd15"], # SD 1.5
# diffusion_sd15 needs to be passed to from_pretrained() as subfolder arg
# hacked t2l to split to model & subfolder if format is "model,subfolder"
"CrucibleAI/ControlNetMediaPipeFace,diffusion_sd15", # SD 1.5
"CrucibleAI/ControlNetMediaPipeFace", # SD 2.1?
]
CONTROLNET_NAME_VALUES = Literal[tuple(CONTROLNET_DEFAULT_MODELS)]
CONTROLNET_MODE_VALUES = Literal[tuple(["balanced", "more_prompt", "more_control", "unbalanced"])]
# crop and fill options not ready yet
# CONTROLNET_RESIZE_VALUES = Literal[tuple(["just_resize", "crop_resize", "fill_resize"])]
class ControlField(BaseModel):
image: ImageField = Field(default=None, description="The control image")
control_model: Optional[str] = Field(default=None, description="The ControlNet model to use")
# control_weight: Optional[float] = Field(default=1, description="weight given to controlnet")
control_weight: Union[float, List[float]] = Field(default=1, description="The weight given to the ControlNet")
begin_step_percent: float = Field(default=0, ge=0, le=1,
description="When the ControlNet is first applied (% of total steps)")
end_step_percent: float = Field(default=1, ge=0, le=1,
description="When the ControlNet is last applied (% of total steps)")
control_mode: CONTROLNET_MODE_VALUES = Field(default="balanced", description="The control mode to use")
# resize_mode: CONTROLNET_RESIZE_VALUES = Field(default="just_resize", description="The resize mode to use")
@validator("control_weight")
def abs_le_one(cls, v):
"""validate that all abs(values) are <=1"""
if isinstance(v, list):
for i in v:
if abs(i) > 1:
raise ValueError('all abs(control_weight) must be <= 1')
else:
if abs(v) > 1:
raise ValueError('abs(control_weight) must be <= 1')
return v
class Config:
schema_extra = {
"required": ["image", "control_model", "control_weight", "begin_step_percent", "end_step_percent"],
"ui": {
"type_hints": {
"control_weight": "float",
# "control_weight": "number",
}
}
}
class ControlOutput(BaseInvocationOutput):
"""node output for ControlNet info"""
# fmt: off
type: Literal["control_output"] = "control_output"
control: ControlField = Field(default=None, description="The control info")
# fmt: on
class ControlNetInvocation(BaseInvocation):
"""Collects ControlNet info to pass to other nodes"""
# fmt: off
type: Literal["controlnet"] = "controlnet"
# Inputs
image: ImageField = Field(default=None, description="The control image")
control_model: CONTROLNET_NAME_VALUES = Field(default="lllyasviel/sd-controlnet-canny",
description="control model used")
control_weight: Union[float, List[float]] = Field(default=1.0, description="The weight given to the ControlNet")
begin_step_percent: float = Field(default=0, ge=0, le=1,
description="When the ControlNet is first applied (% of total steps)")
end_step_percent: float = Field(default=1, ge=0, le=1,
description="When the ControlNet is last applied (% of total steps)")
control_mode: CONTROLNET_MODE_VALUES = Field(default="balanced", description="The control mode used")
# fmt: on
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents"],
"type_hints": {
"model": "model",
"control": "control",
# "cfg_scale": "float",
"cfg_scale": "number",
"control_weight": "float",
}
},
}
def invoke(self, context: InvocationContext) -> ControlOutput:
return ControlOutput(
control=ControlField(
image=self.image,
control_model=self.control_model,
control_weight=self.control_weight,
begin_step_percent=self.begin_step_percent,
end_step_percent=self.end_step_percent,
control_mode=self.control_mode,
),
)
class ImageProcessorInvocation(BaseInvocation, PILInvocationConfig):
"""Base class for invocations that preprocess images for ControlNet"""
# fmt: off
type: Literal["image_processor"] = "image_processor"
# Inputs
image: ImageField = Field(default=None, description="The image to process")
# fmt: on
def run_processor(self, image):
# superclass just passes through image without processing
return image
def invoke(self, context: InvocationContext) -> ImageOutput:
raw_image = context.services.images.get_pil_image(self.image.image_name)
# image type should be PIL.PngImagePlugin.PngImageFile ?
processed_image = self.run_processor(raw_image)
# FIXME: what happened to image metadata?
# metadata = context.services.metadata.build_metadata(
# session_id=context.graph_execution_state_id, node=self
# )
# currently can't see processed image in node UI without a showImage node,
# so for now setting image_type to RESULT instead of INTERMEDIATE so will get saved in gallery
image_dto = context.services.images.create(
image=processed_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.CONTROL,
session_id=context.graph_execution_state_id,
node_id=self.id,
is_intermediate=self.is_intermediate
)
"""Builds an ImageOutput and its ImageField"""
processed_image_field = ImageField(image_name=image_dto.image_name)
return ImageOutput(
image=processed_image_field,
# width=processed_image.width,
width = image_dto.width,
# height=processed_image.height,
height = image_dto.height,
# mode=processed_image.mode,
)
class CannyImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Canny edge detection for ControlNet"""
# fmt: off
type: Literal["canny_image_processor"] = "canny_image_processor"
# Input
low_threshold: int = Field(default=100, ge=0, le=255, description="The low threshold of the Canny pixel gradient (0-255)")
high_threshold: int = Field(default=200, ge=0, le=255, description="The high threshold of the Canny pixel gradient (0-255)")
# fmt: on
def run_processor(self, image):
canny_processor = CannyDetector()
processed_image = canny_processor(image, self.low_threshold, self.high_threshold)
return processed_image
class HedImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies HED edge detection to image"""
# fmt: off
type: Literal["hed_image_processor"] = "hed_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
# safe not supported in controlnet_aux v0.0.3
# safe: bool = Field(default=False, description="whether to use safe mode")
scribble: bool = Field(default=False, description="Whether to use scribble mode")
# fmt: on
def run_processor(self, image):
hed_processor = HEDdetector.from_pretrained("lllyasviel/Annotators")
processed_image = hed_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
# safe not supported in controlnet_aux v0.0.3
# safe=self.safe,
scribble=self.scribble,
)
return processed_image
class LineartImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies line art processing to image"""
# fmt: off
type: Literal["lineart_image_processor"] = "lineart_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
coarse: bool = Field(default=False, description="Whether to use coarse mode")
# fmt: on
def run_processor(self, image):
lineart_processor = LineartDetector.from_pretrained("lllyasviel/Annotators")
processed_image = lineart_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
coarse=self.coarse)
return processed_image
class LineartAnimeImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies line art anime processing to image"""
# fmt: off
type: Literal["lineart_anime_image_processor"] = "lineart_anime_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
# fmt: on
def run_processor(self, image):
processor = LineartAnimeDetector.from_pretrained("lllyasviel/Annotators")
processed_image = processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
)
return processed_image
class OpenposeImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies Openpose processing to image"""
# fmt: off
type: Literal["openpose_image_processor"] = "openpose_image_processor"
# Inputs
hand_and_face: bool = Field(default=False, description="Whether to use hands and face mode")
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
# fmt: on
def run_processor(self, image):
openpose_processor = OpenposeDetector.from_pretrained("lllyasviel/Annotators")
processed_image = openpose_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
hand_and_face=self.hand_and_face,
)
return processed_image
class MidasDepthImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies Midas depth processing to image"""
# fmt: off
type: Literal["midas_depth_image_processor"] = "midas_depth_image_processor"
# Inputs
a_mult: float = Field(default=2.0, ge=0, description="Midas parameter `a_mult` (a = a_mult * PI)")
bg_th: float = Field(default=0.1, ge=0, description="Midas parameter `bg_th`")
# depth_and_normal not supported in controlnet_aux v0.0.3
# depth_and_normal: bool = Field(default=False, description="whether to use depth and normal mode")
# fmt: on
def run_processor(self, image):
midas_processor = MidasDetector.from_pretrained("lllyasviel/Annotators")
processed_image = midas_processor(image,
a=np.pi * self.a_mult,
bg_th=self.bg_th,
# dept_and_normal not supported in controlnet_aux v0.0.3
# depth_and_normal=self.depth_and_normal,
)
return processed_image
class NormalbaeImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies NormalBae processing to image"""
# fmt: off
type: Literal["normalbae_image_processor"] = "normalbae_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
# fmt: on
def run_processor(self, image):
normalbae_processor = NormalBaeDetector.from_pretrained("lllyasviel/Annotators")
processed_image = normalbae_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution)
return processed_image
class MlsdImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies MLSD processing to image"""
# fmt: off
type: Literal["mlsd_image_processor"] = "mlsd_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
thr_v: float = Field(default=0.1, ge=0, description="MLSD parameter `thr_v`")
thr_d: float = Field(default=0.1, ge=0, description="MLSD parameter `thr_d`")
# fmt: on
def run_processor(self, image):
mlsd_processor = MLSDdetector.from_pretrained("lllyasviel/Annotators")
processed_image = mlsd_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
thr_v=self.thr_v,
thr_d=self.thr_d)
return processed_image
class PidiImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies PIDI processing to image"""
# fmt: off
type: Literal["pidi_image_processor"] = "pidi_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
safe: bool = Field(default=False, description="Whether to use safe mode")
scribble: bool = Field(default=False, description="Whether to use scribble mode")
# fmt: on
def run_processor(self, image):
pidi_processor = PidiNetDetector.from_pretrained("lllyasviel/Annotators")
processed_image = pidi_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
safe=self.safe,
scribble=self.scribble)
return processed_image
class ContentShuffleImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies content shuffle processing to image"""
# fmt: off
type: Literal["content_shuffle_image_processor"] = "content_shuffle_image_processor"
# Inputs
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
h: Union[int, None] = Field(default=512, ge=0, description="Content shuffle `h` parameter")
w: Union[int, None] = Field(default=512, ge=0, description="Content shuffle `w` parameter")
f: Union[int, None] = Field(default=256, ge=0, description="Content shuffle `f` parameter")
# fmt: on
def run_processor(self, image):
content_shuffle_processor = ContentShuffleDetector()
processed_image = content_shuffle_processor(image,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution,
h=self.h,
w=self.w,
f=self.f
)
return processed_image
# should work with controlnet_aux >= 0.0.4 and timm <= 0.6.13
class ZoeDepthImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies Zoe depth processing to image"""
# fmt: off
type: Literal["zoe_depth_image_processor"] = "zoe_depth_image_processor"
# fmt: on
def run_processor(self, image):
zoe_depth_processor = ZoeDetector.from_pretrained("lllyasviel/Annotators")
processed_image = zoe_depth_processor(image)
return processed_image
class MediapipeFaceProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies mediapipe face processing to image"""
# fmt: off
type: Literal["mediapipe_face_processor"] = "mediapipe_face_processor"
# Inputs
max_faces: int = Field(default=1, ge=1, description="Maximum number of faces to detect")
min_confidence: float = Field(default=0.5, ge=0, le=1, description="Minimum confidence for face detection")
# fmt: on
def run_processor(self, image):
# MediaPipeFaceDetector throws an error if image has alpha channel
# so convert to RGB if needed
if image.mode == 'RGBA':
image = image.convert('RGB')
mediapipe_face_processor = MediapipeFaceDetector()
processed_image = mediapipe_face_processor(image, max_faces=self.max_faces, min_confidence=self.min_confidence)
return processed_image
class LeresImageProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies leres processing to image"""
# fmt: off
type: Literal["leres_image_processor"] = "leres_image_processor"
# Inputs
thr_a: float = Field(default=0, description="Leres parameter `thr_a`")
thr_b: float = Field(default=0, description="Leres parameter `thr_b`")
boost: bool = Field(default=False, description="Whether to use boost mode")
detect_resolution: int = Field(default=512, ge=0, description="The pixel resolution for detection")
image_resolution: int = Field(default=512, ge=0, description="The pixel resolution for the output image")
# fmt: on
def run_processor(self, image):
leres_processor = LeresDetector.from_pretrained("lllyasviel/Annotators")
processed_image = leres_processor(image,
thr_a=self.thr_a,
thr_b=self.thr_b,
boost=self.boost,
detect_resolution=self.detect_resolution,
image_resolution=self.image_resolution)
return processed_image
class TileResamplerProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
# fmt: off
type: Literal["tile_image_processor"] = "tile_image_processor"
# Inputs
#res: int = Field(default=512, ge=0, le=1024, description="The pixel resolution for each tile")
down_sampling_rate: float = Field(default=1.0, ge=1.0, le=8.0, description="Down sampling rate")
# fmt: on
# tile_resample copied from sd-webui-controlnet/scripts/processor.py
def tile_resample(self,
np_img: np.ndarray,
res=512, # never used?
down_sampling_rate=1.0,
):
np_img = HWC3(np_img)
if down_sampling_rate < 1.1:
return np_img
H, W, C = np_img.shape
H = int(float(H) / float(down_sampling_rate))
W = int(float(W) / float(down_sampling_rate))
np_img = cv2.resize(np_img, (W, H), interpolation=cv2.INTER_AREA)
return np_img
def run_processor(self, img):
np_img = np.array(img, dtype=np.uint8)
processed_np_image = self.tile_resample(np_img,
#res=self.tile_size,
down_sampling_rate=self.down_sampling_rate
)
processed_image = Image.fromarray(processed_np_image)
return processed_image
class SegmentAnythingProcessorInvocation(ImageProcessorInvocation, PILInvocationConfig):
"""Applies segment anything processing to image"""
# fmt: off
type: Literal["segment_anything_processor"] = "segment_anything_processor"
# fmt: on
def run_processor(self, image):
# segment_anything_processor = SamDetector.from_pretrained("ybelkada/segment-anything", subfolder="checkpoints")
segment_anything_processor = SamDetectorReproducibleColors.from_pretrained("ybelkada/segment-anything", subfolder="checkpoints")
np_img = np.array(image, dtype=np.uint8)
processed_image = segment_anything_processor(np_img)
return processed_image
class SamDetectorReproducibleColors(SamDetector):
# overriding SamDetector.show_anns() method to use reproducible colors for segmentation image
# base class show_anns() method randomizes colors,
# which seems to also lead to non-reproducible image generation
# so using ADE20k color palette instead
def show_anns(self, anns: List[Dict]):
if len(anns) == 0:
return
sorted_anns = sorted(anns, key=(lambda x: x['area']), reverse=True)
h, w = anns[0]['segmentation'].shape
final_img = Image.fromarray(np.zeros((h, w, 3), dtype=np.uint8), mode="RGB")
palette = ade_palette()
for i, ann in enumerate(sorted_anns):
m = ann['segmentation']
img = np.empty((m.shape[0], m.shape[1], 3), dtype=np.uint8)
# doing modulo just in case number of annotated regions exceeds number of colors in palette
ann_color = palette[i % len(palette)]
img[:, :] = ann_color
final_img.paste(Image.fromarray(img, mode="RGB"), (0, 0), Image.fromarray(np.uint8(m * 255)))
return np.array(final_img, dtype=np.uint8)

41
invokeai/app/invocations/cv.py
View File

@ -7,9 +7,10 @@ import numpy
from PIL import Image, ImageOps
from pydantic import BaseModel, Field
from invokeai.app.models.image import ImageCategory, ImageField, ResourceOrigin
from invokeai.app.models.image import ImageField, ImageType
from invokeai.app.modules.metadata import MetadataModule
from .baseinvocation import BaseInvocation, InvocationContext, InvocationConfig
from .image import ImageOutput
from .image import ImageOutput, build_image_output
class CvInvocationConfig(BaseModel):
@ -26,23 +27,24 @@ class CvInvocationConfig(BaseModel):
class CvInpaintInvocation(BaseInvocation, CvInvocationConfig):
"""Simple inpaint using opencv."""
# fmt: off
#fmt: off
type: Literal["cv_inpaint"] = "cv_inpaint"
# Inputs
image: ImageField = Field(default=None, description="The image to inpaint")
mask: ImageField = Field(default=None, description="The mask to use when inpainting")
# fmt: on
#fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
mask = context.services.images.get_pil_image(self.mask.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
mask = context.services.images.get(self.mask.image_type, self.mask.image_name)
# Convert to cv image/mask
# TODO: consider making these utility functions
cv_image = cv.cvtColor(numpy.array(image.convert("RGB")), cv.COLOR_RGB2BGR)
cv_mask = numpy.array(ImageOps.invert(mask.convert("L")))
cv_mask = numpy.array(ImageOps.invert(mask))
# Inpaint
cv_inpainted = cv.inpaint(cv_image, cv_mask, 3, cv.INPAINT_TELEA)
@ -51,17 +53,18 @@ class CvInpaintInvocation(BaseInvocation, CvInvocationConfig):
# TODO: consider making a utility function
image_inpainted = Image.fromarray(cv.cvtColor(cv_inpainted, cv.COLOR_BGR2RGB))
image_dto = context.services.images.create(
image=image_inpainted,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, image_inpainted, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=image_inpainted,
)

372
invokeai/app/invocations/generate.py
View File

@ -1,79 +1,122 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
from functools import partial
from typing import Literal, Optional, Union, get_args
from typing import Literal, Optional, Union
import numpy as np
from torch import Tensor
import torch
from diffusers import ControlNetModel
from pydantic import BaseModel, Field
from invokeai.app.models.image import (ColorField, ImageCategory, ImageField,
ResourceOrigin)
from invokeai.app.util.misc import SEED_MAX, get_random_seed
from invokeai.backend.generator.inpaint import infill_methods
from ...backend.generator import Inpaint, InvokeAIGenerator
from invokeai.app.models.image import ImageField, ImageType
from invokeai.app.invocations.util.choose_model import choose_model
from invokeai.app.modules.metadata import MetadataModule
from .baseinvocation import BaseInvocation, InvocationContext, InvocationConfig
from .image import ImageOutput, build_image_output
from ...backend.generator import Txt2Img, Img2Img, Inpaint, InvokeAIGenerator
from ...backend.stable_diffusion import PipelineIntermediateState
from ..util.step_callback import stable_diffusion_step_callback
from .baseinvocation import BaseInvocation, InvocationConfig, InvocationContext
from .image import ImageOutput
import re
from ...backend.model_management.lora import ModelPatcher
from ...backend.stable_diffusion.diffusers_pipeline import StableDiffusionGeneratorPipeline
from .model import UNetField, VaeField
from .compel import ConditioningField
from contextlib import contextmanager, ExitStack, ContextDecorator
SAMPLER_NAME_VALUES = Literal[tuple(InvokeAIGenerator.schedulers())]
INFILL_METHODS = Literal[tuple(infill_methods())]
DEFAULT_INFILL_METHOD = (
"patchmatch" if "patchmatch" in get_args(INFILL_METHODS) else "tile"
)
from .latent import get_scheduler
class SDImageInvocation(BaseModel):
"""Helper class to provide all Stable Diffusion raster image invocations with additional config"""
class OldModelContext(ContextDecorator):
model: StableDiffusionGeneratorPipeline
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["stable-diffusion", "image"],
"type_hints": {
"model": "model",
},
},
}
def __init__(self, model):
self.model = model
def __enter__(self):
return self.model
# Text to image
class TextToImageInvocation(BaseInvocation, SDImageInvocation):
"""Generates an image using text2img."""
def __exit__(self, *exc):
return False
type: Literal["txt2img"] = "txt2img"
class OldModelInfo:
name: str
hash: str
context: OldModelContext
# Inputs
# TODO: consider making prompt optional to enable providing prompt through a link
# fmt: off
prompt: Optional[str] = Field(description="The prompt to generate an image from")
seed: int = Field(default=-1,ge=-1, le=np.iinfo(np.uint32).max, description="The seed to use (-1 for a random seed)", )
steps: int = Field(default=10, gt=0, description="The number of steps to use to generate the image")
width: int = Field(default=512, multiple_of=64, gt=0, description="The width of the resulting image", )
height: int = Field(default=512, multiple_of=64, gt=0, description="The height of the resulting image", )
cfg_scale: float = Field(default=7.5, gt=0, description="The Classifier-Free Guidance, higher values may result in a result closer to the prompt", )
scheduler: SAMPLER_NAME_VALUES = Field(default="k_lms", description="The scheduler to use" )
seamless: bool = Field(default=False, description="Whether or not to generate an image that can tile without seams", )
model: str = Field(default="", description="The model to use (currently ignored)")
progress_images: bool = Field(default=False, description="Whether or not to produce progress images during generation", )
# fmt: on
def __init__(self, name: str, hash: str, model: StableDiffusionGeneratorPipeline):
self.name = name
self.hash = hash
self.context = OldModelContext(
model=model,
# TODO: pass this an emitter method or something? or a session for dispatching?
def dispatch_progress(
self,
context: InvocationContext,
source_node_id: str,
intermediate_state: PipelineIntermediateState,
) -> None:
stable_diffusion_step_callback(
context=context,
intermediate_state=intermediate_state,
invocation_dict=self.dict(),
source_node_id=source_node_id,
)
def invoke(self, context: InvocationContext) -> ImageOutput:
# Handle invalid model parameter
model = choose_model(context.services.model_manager, self.model)
# Get the source node id (we are invoking the prepared node)
graph_execution_state = context.services.graph_execution_manager.get(
context.graph_execution_state_id
)
source_node_id = graph_execution_state.prepared_source_mapping[self.id]
outputs = Txt2Img(model).generate(
prompt=self.prompt,
step_callback=partial(self.dispatch_progress, context, source_node_id),
**self.dict(
exclude={"prompt"}
), # Shorthand for passing all of the parameters above manually
)
# Outputs is an infinite iterator that will return a new InvokeAIGeneratorOutput object
# each time it is called. We only need the first one.
generate_output = next(outputs)
# Results are image and seed, unwrap for now and ignore the seed
# TODO: pre-seed?
# TODO: can this return multiple results? Should it?
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(
image_type, image_name, generate_output.image, metadata
)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=generate_output.image,
)
class InpaintInvocation(BaseInvocation):
"""Generates an image using inpaint."""
class ImageToImageInvocation(TextToImageInvocation):
"""Generates an image using img2img."""
type: Literal["inpaint"] = "inpaint"
positive_conditioning: Optional[ConditioningField] = Field(description="Positive conditioning for generation")
negative_conditioning: Optional[ConditioningField] = Field(description="Negative conditioning for generation")
seed: int = Field(ge=0, le=SEED_MAX, description="The seed to use (omit for random)", default_factory=get_random_seed)
steps: int = Field(default=30, gt=0, description="The number of steps to use to generate the image")
width: int = Field(default=512, multiple_of=8, gt=0, description="The width of the resulting image", )
height: int = Field(default=512, multiple_of=8, gt=0, description="The height of the resulting image", )
cfg_scale: float = Field(default=7.5, ge=1, description="The Classifier-Free Guidance, higher values may result in a result closer to the prompt", )
scheduler: SAMPLER_NAME_VALUES = Field(default="euler", description="The scheduler to use" )
unet: UNetField = Field(default=None, description="UNet model")
vae: VaeField = Field(default=None, description="Vae model")
type: Literal["img2img"] = "img2img"
# Inputs
image: Union[ImageField, None] = Field(description="The input image")
@ -85,41 +128,81 @@ class InpaintInvocation(BaseInvocation):
description="Whether or not the result should be fit to the aspect ratio of the input image",
)
def dispatch_progress(
self,
context: InvocationContext,
source_node_id: str,
intermediate_state: PipelineIntermediateState,
) -> None:
stable_diffusion_step_callback(
context=context,
intermediate_state=intermediate_state,
invocation_dict=self.dict(),
source_node_id=source_node_id,
)
def invoke(self, context: InvocationContext) -> ImageOutput:
image = (
None
if self.image is None
else context.services.images.get(
self.image.image_type, self.image.image_name
)
)
mask = None
# Handle invalid model parameter
model = choose_model(context.services.model_manager, self.model)
# Get the source node id (we are invoking the prepared node)
graph_execution_state = context.services.graph_execution_manager.get(
context.graph_execution_state_id
)
source_node_id = graph_execution_state.prepared_source_mapping[self.id]
outputs = Img2Img(model).generate(
prompt=self.prompt,
init_image=image,
init_mask=mask,
step_callback=partial(self.dispatch_progress, context, source_node_id),
**self.dict(
exclude={"prompt", "image", "mask"}
), # Shorthand for passing all of the parameters above manually
)
# Outputs is an infinite iterator that will return a new InvokeAIGeneratorOutput object
# each time it is called. We only need the first one.
generator_output = next(outputs)
result_image = generator_output.image
# Results are image and seed, unwrap for now and ignore the seed
# TODO: pre-seed?
# TODO: can this return multiple results? Should it?
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, result_image, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=result_image,
)
class InpaintInvocation(ImageToImageInvocation):
"""Generates an image using inpaint."""
type: Literal["inpaint"] = "inpaint"
# Inputs
mask: Union[ImageField, None] = Field(description="The mask")
seam_size: int = Field(default=96, ge=1, description="The seam inpaint size (px)")
seam_blur: int = Field(
default=16, ge=0, description="The seam inpaint blur radius (px)"
)
seam_strength: float = Field(
default=0.75, gt=0, le=1, description="The seam inpaint strength"
)
seam_steps: int = Field(
default=30, ge=1, description="The number of steps to use for seam inpaint"
)
tile_size: int = Field(
default=32, ge=1, description="The tile infill method size (px)"
)
infill_method: INFILL_METHODS = Field(
default=DEFAULT_INFILL_METHOD,
description="The method used to infill empty regions (px)",
)
inpaint_width: Optional[int] = Field(
default=None,
multiple_of=8,
gt=0,
description="The width of the inpaint region (px)",
)
inpaint_height: Optional[int] = Field(
default=None,
multiple_of=8,
gt=0,
description="The height of the inpaint region (px)",
)
inpaint_fill: Optional[ColorField] = Field(
default=ColorField(r=127, g=127, b=127, a=255),
description="The solid infill method color",
)
inpaint_replace: float = Field(
default=0.0,
ge=0.0,
@ -127,14 +210,6 @@ class InpaintInvocation(BaseInvocation):
description="The amount by which to replace masked areas with latent noise",
)
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["stable-diffusion", "image"],
},
}
def dispatch_progress(
self,
context: InvocationContext,
@ -144,105 +219,64 @@ class InpaintInvocation(BaseInvocation):
stable_diffusion_step_callback(
context=context,
intermediate_state=intermediate_state,
node=self.dict(),
invocation_dict=self.dict(),
source_node_id=source_node_id,
)
def get_conditioning(self, context):
c, extra_conditioning_info = context.services.latents.get(self.positive_conditioning.conditioning_name)
uc, _ = context.services.latents.get(self.negative_conditioning.conditioning_name)
return (uc, c, extra_conditioning_info)
@contextmanager
def load_model_old_way(self, context, scheduler):
unet_info = context.services.model_manager.get_model(**self.unet.unet.dict())
vae_info = context.services.model_manager.get_model(**self.vae.vae.dict())
#unet = unet_info.context.model
#vae = vae_info.context.model
with ExitStack() as stack:
loras = [(stack.enter_context(context.services.model_manager.get_model(**lora.dict(exclude={"weight"}))), lora.weight) for lora in self.unet.loras]
with vae_info as vae,\
unet_info as unet,\
ModelPatcher.apply_lora_unet(unet, loras):
device = context.services.model_manager.mgr.cache.execution_device
dtype = context.services.model_manager.mgr.cache.precision
pipeline = StableDiffusionGeneratorPipeline(
vae=vae,
text_encoder=None,
tokenizer=None,
unet=unet,
scheduler=scheduler,
safety_checker=None,
feature_extractor=None,
requires_safety_checker=False,
precision="float16" if dtype == torch.float16 else "float32",
execution_device=device,
)
yield OldModelInfo(
name=self.unet.unet.model_name,
hash="<NO-HASH>",
model=pipeline,
)
def invoke(self, context: InvocationContext) -> ImageOutput:
image = (
None
if self.image is None
else context.services.images.get_pil_image(self.image.image_name)
else context.services.images.get(
self.image.image_type, self.image.image_name
)
)
mask = (
None
if self.mask is None
else context.services.images.get_pil_image(self.mask.image_name)
else context.services.images.get(self.mask.image_type, self.mask.image_name)
)
# Handle invalid model parameter
model = choose_model(context.services.model_manager, self.model)
# Get the source node id (we are invoking the prepared node)
graph_execution_state = context.services.graph_execution_manager.get(
context.graph_execution_state_id
)
source_node_id = graph_execution_state.prepared_source_mapping[self.id]
conditioning = self.get_conditioning(context)
scheduler = get_scheduler(
context=context,
scheduler_info=self.unet.scheduler,
scheduler_name=self.scheduler,
outputs = Inpaint(model).generate(
prompt=self.prompt,
init_img=image,
init_mask=mask,
step_callback=partial(self.dispatch_progress, context, source_node_id),
**self.dict(
exclude={"prompt", "image", "mask"}
), # Shorthand for passing all of the parameters above manually
)
with self.load_model_old_way(context, scheduler) as model:
outputs = Inpaint(model).generate(
conditioning=conditioning,
scheduler=scheduler,
init_image=image,
mask_image=mask,
step_callback=partial(self.dispatch_progress, context, source_node_id),
**self.dict(
exclude={"positive_conditioning", "negative_conditioning", "scheduler", "image", "mask"}
), # Shorthand for passing all of the parameters above manually
)
# Outputs is an infinite iterator that will return a new InvokeAIGeneratorOutput object
# each time it is called. We only need the first one.
generator_output = next(outputs)
image_dto = context.services.images.create(
image=generator_output.image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
session_id=context.graph_execution_state_id,
node_id=self.id,
is_intermediate=self.is_intermediate,
result_image = generator_output.image
# Results are image and seed, unwrap for now and ignore the seed
# TODO: pre-seed?
# TODO: can this return multiple results? Should it?
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, result_image, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=result_image,
)

463
invokeai/app/invocations/image.py
View File

@ -1,13 +1,14 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
import io
from typing import Literal, Optional, Union
from typing import Literal, Optional
import numpy
from PIL import Image, ImageFilter, ImageOps, ImageChops
from PIL import Image, ImageFilter, ImageOps
from pydantic import BaseModel, Field
from ..models.image import ImageCategory, ImageField, ResourceOrigin
from invokeai.app.modules.metadata import MetadataModule
from ..models.image import ImageField, ImageType
from .baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
@ -31,14 +32,33 @@ class ImageOutput(BaseInvocationOutput):
"""Base class for invocations that output an image"""
# fmt: off
type: Literal["image_output"] = "image_output"
type: Literal["image"] = "image"
image: ImageField = Field(default=None, description="The output image")
width: int = Field(description="The width of the image in pixels")
height: int = Field(description="The height of the image in pixels")
width: Optional[int] = Field(default=None, description="The width of the image in pixels")
height: Optional[int] = Field(default=None, description="The height of the image in pixels")
mode: Optional[str] = Field(default=None, description="The image mode (ie pixel format)")
# fmt: on
class Config:
schema_extra = {"required": ["type", "image", "width", "height"]}
schema_extra = {
"required": ["type", "image", "width", "height", "mode"]
}
def build_image_output(
image_type: ImageType, image_name: str, image: Image.Image
) -> ImageOutput:
"""Builds an ImageOutput and its ImageField"""
image_field = ImageField(
image_name=image_name,
image_type=image_type,
)
return ImageOutput(
image=image_field,
width=image.width,
height=image.height,
mode=image.mode,
)
class MaskOutput(BaseInvocationOutput):
@ -47,8 +67,6 @@ class MaskOutput(BaseInvocationOutput):
# fmt: off
type: Literal["mask"] = "mask"
mask: ImageField = Field(default=None, description="The output mask")
width: int = Field(description="The width of the mask in pixels")
height: int = Field(description="The height of the mask in pixels")
# fmt: on
class Config:
@ -67,17 +85,16 @@ class LoadImageInvocation(BaseInvocation):
type: Literal["load_image"] = "load_image"
# Inputs
image: Union[ImageField, None] = Field(
default=None, description="The image to load"
)
image_type: ImageType = Field(description="The type of the image")
image_name: str = Field(description="The name of the image")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(self.image_type, self.image_name)
return ImageOutput(
image=ImageField(image_name=self.image.image_name),
width=image.width,
height=image.height,
return build_image_output(
image_type=self.image_type,
image_name=self.image_name,
image=image,
)
@ -87,32 +104,32 @@ class ShowImageInvocation(BaseInvocation):
type: Literal["show_image"] = "show_image"
# Inputs
image: Union[ImageField, None] = Field(
default=None, description="The image to show"
)
image: ImageField = Field(default=None, description="The image to show")
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
if image:
image.show()
# TODO: how to handle failure?
return ImageOutput(
image=ImageField(image_name=self.image.image_name),
width=image.width,
height=image.height,
return build_image_output(
image_type=self.image.image_type,
image_name=self.image.image_name,
image=image,
)
class ImageCropInvocation(BaseInvocation, PILInvocationConfig):
class CropImageInvocation(BaseInvocation, PILInvocationConfig):
"""Crops an image to a specified box. The box can be outside of the image."""
# fmt: off
type: Literal["img_crop"] = "img_crop"
type: Literal["crop"] = "crop"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to crop")
image: ImageField = Field(default=None, description="The image to crop")
x: int = Field(default=0, description="The left x coordinate of the crop rectangle")
y: int = Field(default=0, description="The top y coordinate of the crop rectangle")
width: int = Field(default=512, gt=0, description="The width of the crop rectangle")
@ -120,51 +137,58 @@ class ImageCropInvocation(BaseInvocation, PILInvocationConfig):
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
image_crop = Image.new(
mode="RGBA", size=(self.width, self.height), color=(0, 0, 0, 0)
)
image_crop.paste(image, (-self.x, -self.y))
image_dto = context.services.images.create(
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, image_crop, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=image_crop,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class ImagePasteInvocation(BaseInvocation, PILInvocationConfig):
class PasteImageInvocation(BaseInvocation, PILInvocationConfig):
"""Pastes an image into another image."""
# fmt: off
type: Literal["img_paste"] = "img_paste"
type: Literal["paste"] = "paste"
# Inputs
base_image: Union[ImageField, None] = Field(default=None, description="The base image")
image: Union[ImageField, None] = Field(default=None, description="The image to paste")
base_image: ImageField = Field(default=None, description="The base image")
image: ImageField = Field(default=None, description="The image to paste")
mask: Optional[ImageField] = Field(default=None, description="The mask to use when pasting")
x: int = Field(default=0, description="The left x coordinate at which to paste the image")
y: int = Field(default=0, description="The top y coordinate at which to paste the image")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
base_image = context.services.images.get_pil_image(self.base_image.image_name)
image = context.services.images.get_pil_image(self.image.image_name)
base_image = context.services.images.get(
self.base_image.image_type, self.base_image.image_name
)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
mask = (
None
if self.mask is None
else ImageOps.invert(
context.services.images.get_pil_image(self.mask.image_name)
context.services.images.get(self.mask.image_type, self.mask.image_name)
)
)
# TODO: probably shouldn't invert mask here... should user be required to do it?
@ -180,19 +204,20 @@ class ImagePasteInvocation(BaseInvocation, PILInvocationConfig):
new_image.paste(base_image, (abs(min_x), abs(min_y)))
new_image.paste(image, (max(0, self.x), max(0, self.y)), mask=mask)
image_dto = context.services.images.create(
image=new_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, new_image, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=new_image,
)
@ -203,150 +228,48 @@ class MaskFromAlphaInvocation(BaseInvocation, PILInvocationConfig):
type: Literal["tomask"] = "tomask"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to create the mask from")
image: ImageField = Field(default=None, description="The image to create the mask from")
invert: bool = Field(default=False, description="Whether or not to invert the mask")
# fmt: on
def invoke(self, context: InvocationContext) -> MaskOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
image_mask = image.split()[-1]
if self.invert:
image_mask = ImageOps.invert(image_mask)
image_dto = context.services.images.create(
image=image_mask,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.MASK,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return MaskOutput(
mask=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
class ImageMultiplyInvocation(BaseInvocation, PILInvocationConfig):
"""Multiplies two images together using `PIL.ImageChops.multiply()`."""
# fmt: off
type: Literal["img_mul"] = "img_mul"
# Inputs
image1: Union[ImageField, None] = Field(default=None, description="The first image to multiply")
image2: Union[ImageField, None] = Field(default=None, description="The second image to multiply")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image1 = context.services.images.get_pil_image(self.image1.image_name)
image2 = context.services.images.get_pil_image(self.image2.image_name)
multiply_image = ImageChops.multiply(image1, image2)
image_dto = context.services.images.create(
image=multiply_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
context.services.images.save(image_type, image_name, image_mask, metadata)
return MaskOutput(mask=ImageField(image_type=image_type, image_name=image_name))
IMAGE_CHANNELS = Literal["A", "R", "G", "B"]
class ImageChannelInvocation(BaseInvocation, PILInvocationConfig):
"""Gets a channel from an image."""
# fmt: off
type: Literal["img_chan"] = "img_chan"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to get the channel from")
channel: IMAGE_CHANNELS = Field(default="A", description="The channel to get")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
channel_image = image.getchannel(self.channel)
image_dto = context.services.images.create(
image=channel_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
IMAGE_MODES = Literal["L", "RGB", "RGBA", "CMYK", "YCbCr", "LAB", "HSV", "I", "F"]
class ImageConvertInvocation(BaseInvocation, PILInvocationConfig):
"""Converts an image to a different mode."""
# fmt: off
type: Literal["img_conv"] = "img_conv"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to convert")
mode: IMAGE_MODES = Field(default="L", description="The mode to convert to")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
converted_image = image.convert(self.mode)
image_dto = context.services.images.create(
image=converted_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class ImageBlurInvocation(BaseInvocation, PILInvocationConfig):
class BlurInvocation(BaseInvocation, PILInvocationConfig):
"""Blurs an image"""
# fmt: off
type: Literal["img_blur"] = "img_blur"
type: Literal["blur"] = "blur"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to blur")
image: ImageField = Field(default=None, description="The image to blur")
radius: float = Field(default=8.0, ge=0, description="The blur radius")
blur_type: Literal["gaussian", "box"] = Field(default="gaussian", description="The type of blur")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
blur = (
ImageFilter.GaussianBlur(self.radius)
@ -355,171 +278,74 @@ class ImageBlurInvocation(BaseInvocation, PILInvocationConfig):
)
blur_image = image.filter(blur)
image_dto = context.services.images.create(
image=blur_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, blur_image, metadata)
return build_image_output(
image_type=image_type, image_name=image_name, image=blur_image
)
PIL_RESAMPLING_MODES = Literal[
"nearest",
"box",
"bilinear",
"hamming",
"bicubic",
"lanczos",
]
PIL_RESAMPLING_MAP = {
"nearest": Image.Resampling.NEAREST,
"box": Image.Resampling.BOX,
"bilinear": Image.Resampling.BILINEAR,
"hamming": Image.Resampling.HAMMING,
"bicubic": Image.Resampling.BICUBIC,
"lanczos": Image.Resampling.LANCZOS,
}
class ImageResizeInvocation(BaseInvocation, PILInvocationConfig):
"""Resizes an image to specific dimensions"""
# fmt: off
type: Literal["img_resize"] = "img_resize"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to resize")
width: int = Field(ge=64, multiple_of=8, description="The width to resize to (px)")
height: int = Field(ge=64, multiple_of=8, description="The height to resize to (px)")
resample_mode: PIL_RESAMPLING_MODES = Field(default="bicubic", description="The resampling mode")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
resample_mode = PIL_RESAMPLING_MAP[self.resample_mode]
resize_image = image.resize(
(self.width, self.height),
resample=resample_mode,
)
image_dto = context.services.images.create(
image=resize_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class ImageScaleInvocation(BaseInvocation, PILInvocationConfig):
"""Scales an image by a factor"""
# fmt: off
type: Literal["img_scale"] = "img_scale"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to scale")
scale_factor: float = Field(gt=0, description="The factor by which to scale the image")
resample_mode: PIL_RESAMPLING_MODES = Field(default="bicubic", description="The resampling mode")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
resample_mode = PIL_RESAMPLING_MAP[self.resample_mode]
width = int(image.width * self.scale_factor)
height = int(image.height * self.scale_factor)
resize_image = image.resize(
(width, height),
resample=resample_mode,
)
image_dto = context.services.images.create(
image=resize_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class ImageLerpInvocation(BaseInvocation, PILInvocationConfig):
class LerpInvocation(BaseInvocation, PILInvocationConfig):
"""Linear interpolation of all pixels of an image"""
# fmt: off
type: Literal["img_lerp"] = "img_lerp"
type: Literal["lerp"] = "lerp"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to lerp")
image: ImageField = Field(default=None, description="The image to lerp")
min: int = Field(default=0, ge=0, le=255, description="The minimum output value")
max: int = Field(default=255, ge=0, le=255, description="The maximum output value")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
image_arr = numpy.asarray(image, dtype=numpy.float32) / 255
image_arr = image_arr * (self.max - self.min) + self.max
lerp_image = Image.fromarray(numpy.uint8(image_arr))
image_dto = context.services.images.create(
image=lerp_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, lerp_image, metadata)
return build_image_output(
image_type=image_type, image_name=image_name, image=lerp_image
)
class ImageInverseLerpInvocation(BaseInvocation, PILInvocationConfig):
class InverseLerpInvocation(BaseInvocation, PILInvocationConfig):
"""Inverse linear interpolation of all pixels of an image"""
# fmt: off
type: Literal["img_ilerp"] = "img_ilerp"
type: Literal["ilerp"] = "ilerp"
# Inputs
image: Union[ImageField, None] = Field(default=None, description="The image to lerp")
image: ImageField = Field(default=None, description="The image to lerp")
min: int = Field(default=0, ge=0, le=255, description="The minimum input value")
max: int = Field(default=255, ge=0, le=255, description="The maximum input value")
# fmt: on
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
image_arr = numpy.asarray(image, dtype=numpy.float32)
image_arr = (
@ -531,17 +357,16 @@ class ImageInverseLerpInvocation(BaseInvocation, PILInvocationConfig):
ilerp_image = Image.fromarray(numpy.uint8(image_arr))
image_dto = context.services.images.create(
image=ilerp_image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.INTERMEDIATE
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, ilerp_image, metadata)
return build_image_output(
image_type=image_type, image_name=image_name, image=ilerp_image
)

230
invokeai/app/invocations/infill.py
View File

@ -1,230 +0,0 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654) and the InvokeAI Team
from typing import Literal, Union, get_args
import numpy as np
import math
from PIL import Image, ImageOps
from pydantic import Field
from invokeai.app.invocations.image import ImageOutput
from invokeai.app.util.misc import SEED_MAX, get_random_seed
from invokeai.backend.image_util.patchmatch import PatchMatch
from ..models.image import ColorField, ImageCategory, ImageField, ResourceOrigin
from .baseinvocation import (
BaseInvocation,
InvocationContext,
)
def infill_methods() -> list[str]:
methods = [
"tile",
"solid",
]
if PatchMatch.patchmatch_available():
methods.insert(0, "patchmatch")
return methods
INFILL_METHODS = Literal[tuple(infill_methods())]
DEFAULT_INFILL_METHOD = (
"patchmatch" if "patchmatch" in get_args(INFILL_METHODS) else "tile"
)
def infill_patchmatch(im: Image.Image) -> Image.Image:
if im.mode != "RGBA":
return im
# Skip patchmatch if patchmatch isn't available
if not PatchMatch.patchmatch_available():
return im
# Patchmatch (note, we may want to expose patch_size? Increasing it significantly impacts performance though)
im_patched_np = PatchMatch.inpaint(
im.convert("RGB"), ImageOps.invert(im.split()[-1]), patch_size=3
)
im_patched = Image.fromarray(im_patched_np, mode="RGB")
return im_patched
def get_tile_images(image: np.ndarray, width=8, height=8):
_nrows, _ncols, depth = image.shape
_strides = image.strides
nrows, _m = divmod(_nrows, height)
ncols, _n = divmod(_ncols, width)
if _m != 0 or _n != 0:
return None
return np.lib.stride_tricks.as_strided(
np.ravel(image),
shape=(nrows, ncols, height, width, depth),
strides=(height * _strides[0], width * _strides[1], *_strides),
writeable=False,
)
def tile_fill_missing(
im: Image.Image, tile_size: int = 16, seed: Union[int, None] = None
) -> Image.Image:
# Only fill if there's an alpha layer
if im.mode != "RGBA":
return im
a = np.asarray(im, dtype=np.uint8)
tile_size_tuple = (tile_size, tile_size)
# Get the image as tiles of a specified size
tiles = get_tile_images(a, *tile_size_tuple).copy()
# Get the mask as tiles
tiles_mask = tiles[:, :, :, :, 3]
# Find any mask tiles with any fully transparent pixels (we will be replacing these later)
tmask_shape = tiles_mask.shape
tiles_mask = tiles_mask.reshape(math.prod(tiles_mask.shape))
n, ny = (math.prod(tmask_shape[0:2])), math.prod(tmask_shape[2:])
tiles_mask = tiles_mask > 0
tiles_mask = tiles_mask.reshape((n, ny)).all(axis=1)
# Get RGB tiles in single array and filter by the mask
tshape = tiles.shape
tiles_all = tiles.reshape((math.prod(tiles.shape[0:2]), *tiles.shape[2:]))
filtered_tiles = tiles_all[tiles_mask]
if len(filtered_tiles) == 0:
return im
# Find all invalid tiles and replace with a random valid tile
replace_count = (tiles_mask == False).sum()
rng = np.random.default_rng(seed=seed)
tiles_all[np.logical_not(tiles_mask)] = filtered_tiles[
rng.choice(filtered_tiles.shape[0], replace_count), :, :, :
]
# Convert back to an image
tiles_all = tiles_all.reshape(tshape)
tiles_all = tiles_all.swapaxes(1, 2)
st = tiles_all.reshape(
(
math.prod(tiles_all.shape[0:2]),
math.prod(tiles_all.shape[2:4]),
tiles_all.shape[4],
)
)
si = Image.fromarray(st, mode="RGBA")
return si
class InfillColorInvocation(BaseInvocation):
"""Infills transparent areas of an image with a solid color"""
type: Literal["infill_rgba"] = "infill_rgba"
image: Union[ImageField, None] = Field(
default=None, description="The image to infill"
)
color: ColorField = Field(
default=ColorField(r=127, g=127, b=127, a=255),
description="The color to use to infill",
)
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
solid_bg = Image.new("RGBA", image.size, self.color.tuple())
infilled = Image.alpha_composite(solid_bg, image.convert("RGBA"))
infilled.paste(image, (0, 0), image.split()[-1])
image_dto = context.services.images.create(
image=infilled,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class InfillTileInvocation(BaseInvocation):
"""Infills transparent areas of an image with tiles of the image"""
type: Literal["infill_tile"] = "infill_tile"
image: Union[ImageField, None] = Field(
default=None, description="The image to infill"
)
tile_size: int = Field(default=32, ge=1, description="The tile size (px)")
seed: int = Field(
ge=0,
le=SEED_MAX,
description="The seed to use for tile generation (omit for random)",
default_factory=get_random_seed,
)
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
infilled = tile_fill_missing(
image.copy(), seed=self.seed, tile_size=self.tile_size
)
infilled.paste(image, (0, 0), image.split()[-1])
image_dto = context.services.images.create(
image=infilled,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
class InfillPatchMatchInvocation(BaseInvocation):
"""Infills transparent areas of an image using the PatchMatch algorithm"""
type: Literal["infill_patchmatch"] = "infill_patchmatch"
image: Union[ImageField, None] = Field(
default=None, description="The image to infill"
)
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
if PatchMatch.patchmatch_available():
infilled = infill_patchmatch(image.copy())
else:
raise ValueError("PatchMatch is not available on this system")
image_dto = context.services.images.create(
image=infilled,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)

670
invokeai/app/invocations/latent.py
View File

@ -1,133 +1,170 @@
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654)
from contextlib import ExitStack
from typing import List, Literal, Optional, Union
import einops
from pydantic import BaseModel, Field, validator
import random
from typing import Literal, Optional
from pydantic import BaseModel, Field
import torch
from diffusers import ControlNetModel, DPMSolverMultistepScheduler
from diffusers.image_processor import VaeImageProcessor
from diffusers.schedulers import SchedulerMixin as Scheduler
from invokeai.app.util.misc import SEED_MAX, get_random_seed
from invokeai.app.invocations.util.choose_model import choose_model
from invokeai.app.modules.metadata import MetadataModule
from invokeai.app.util.step_callback import stable_diffusion_step_callback
from ..models.image import ImageCategory, ImageField, ResourceOrigin
from ...backend.model_management.model_manager import ModelManager
from ...backend.util.devices import choose_torch_device, torch_dtype
from ...backend.stable_diffusion.diffusion.shared_invokeai_diffusion import PostprocessingSettings
from ...backend.image_util.seamless import configure_model_padding
from ...backend.prompting.conditioning import get_uc_and_c_and_ec
from ...backend.stable_diffusion.diffusers_pipeline import ConditioningData, StableDiffusionGeneratorPipeline
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext, InvocationConfig
import numpy as np
from ..services.image_storage import ImageType
from .baseinvocation import BaseInvocation, InvocationContext
from .image import ImageField, ImageOutput, build_image_output
from ...backend.stable_diffusion import PipelineIntermediateState
from ...backend.stable_diffusion.diffusers_pipeline import (
ConditioningData, ControlNetData, StableDiffusionGeneratorPipeline,
image_resized_to_grid_as_tensor)
from ...backend.stable_diffusion.diffusion.shared_invokeai_diffusion import \
PostprocessingSettings
from ...backend.stable_diffusion.schedulers import SCHEDULER_MAP
from ...backend.util.devices import torch_dtype
from ...backend.model_management.lora import ModelPatcher
from .baseinvocation import (BaseInvocation, BaseInvocationOutput,
InvocationConfig, InvocationContext)
from .compel import ConditioningField
from .controlnet_image_processors import ControlField
from .image import ImageOutput
from .model import ModelInfo, UNetField, VaeField
from diffusers.schedulers import SchedulerMixin as Scheduler
import diffusers
from diffusers import DiffusionPipeline
class LatentsField(BaseModel):
"""A latents field used for passing latents between invocations"""
latents_name: Optional[str] = Field(default=None, description="The name of the latents")
class Config:
schema_extra = {"required": ["latents_name"]}
class LatentsOutput(BaseInvocationOutput):
"""Base class for invocations that output latents"""
#fmt: off
type: Literal["latents_output"] = "latents_output"
type: Literal["latent_output"] = "latent_output"
latents: LatentsField = Field(default=None, description="The output latents")
#fmt: on
# Inputs
latents: LatentsField = Field(default=None, description="The output latents")
width: int = Field(description="The width of the latents in pixels")
height: int = Field(description="The height of the latents in pixels")
class NoiseOutput(BaseInvocationOutput):
"""Invocation noise output"""
#fmt: off
type: Literal["noise_output"] = "noise_output"
noise: LatentsField = Field(default=None, description="The output noise")
#fmt: on
def build_latents_output(latents_name: str, latents: torch.Tensor):
return LatentsOutput(
latents=LatentsField(latents_name=latents_name),
width=latents.size()[3] * 8,
height=latents.size()[2] * 8,
)
# TODO: this seems like a hack
scheduler_map = dict(
ddim=diffusers.DDIMScheduler,
dpmpp_2=diffusers.DPMSolverMultistepScheduler,
k_dpm_2=diffusers.KDPM2DiscreteScheduler,
k_dpm_2_a=diffusers.KDPM2AncestralDiscreteScheduler,
k_dpmpp_2=diffusers.DPMSolverMultistepScheduler,
k_euler=diffusers.EulerDiscreteScheduler,
k_euler_a=diffusers.EulerAncestralDiscreteScheduler,
k_heun=diffusers.HeunDiscreteScheduler,
k_lms=diffusers.LMSDiscreteScheduler,
plms=diffusers.PNDMScheduler,
)
SAMPLER_NAME_VALUES = Literal[
tuple(list(SCHEDULER_MAP.keys()))
tuple(list(scheduler_map.keys()))
]
def get_scheduler(
context: InvocationContext,
scheduler_info: ModelInfo,
scheduler_name: str,
) -> Scheduler:
scheduler_class, scheduler_extra_config = SCHEDULER_MAP.get(scheduler_name, SCHEDULER_MAP['ddim'])
orig_scheduler_info = context.services.model_manager.get_model(**scheduler_info.dict())
with orig_scheduler_info as orig_scheduler:
scheduler_config = orig_scheduler.config
if "_backup" in scheduler_config:
scheduler_config = scheduler_config["_backup"]
scheduler_config = {**scheduler_config, **scheduler_extra_config, "_backup": scheduler_config}
scheduler = scheduler_class.from_config(scheduler_config)
def get_scheduler(scheduler_name:str, model: StableDiffusionGeneratorPipeline)->Scheduler:
scheduler_class = scheduler_map.get(scheduler_name,'ddim')
scheduler = scheduler_class.from_config(model.scheduler.config)
# hack copied over from generate.py
if not hasattr(scheduler, 'uses_inpainting_model'):
scheduler.uses_inpainting_model = lambda: False
return scheduler
# Text to image
class TextToLatentsInvocation(BaseInvocation):
"""Generates latents from conditionings."""
def get_noise(width:int, height:int, device:torch.device, seed:int = 0, latent_channels:int=4, use_mps_noise:bool=False, downsampling_factor:int = 8):
# limit noise to only the diffusion image channels, not the mask channels
input_channels = min(latent_channels, 4)
use_device = "cpu" if (use_mps_noise or device.type == "mps") else device
generator = torch.Generator(device=use_device).manual_seed(seed)
x = torch.randn(
[
1,
input_channels,
height // downsampling_factor,
width // downsampling_factor,
],
dtype=torch_dtype(device),
device=use_device,
generator=generator,
).to(device)
# if self.perlin > 0.0:
# perlin_noise = self.get_perlin_noise(
# width // self.downsampling_factor, height // self.downsampling_factor
# )
# x = (1 - self.perlin) * x + self.perlin * perlin_noise
return x
type: Literal["t2l"] = "t2l"
def random_seed():
return random.randint(0, np.iinfo(np.uint32).max)
class NoiseInvocation(BaseInvocation):
"""Generates latent noise."""
type: Literal["noise"] = "noise"
# Inputs
# fmt: off
positive_conditioning: Optional[ConditioningField] = Field(description="Positive conditioning for generation")
negative_conditioning: Optional[ConditioningField] = Field(description="Negative conditioning for generation")
noise: Optional[LatentsField] = Field(description="The noise to use")
steps: int = Field(default=10, gt=0, description="The number of steps to use to generate the image")
cfg_scale: Union[float, List[float]] = Field(default=7.5, ge=1, description="The Classifier-Free Guidance, higher values may result in a result closer to the prompt", )
scheduler: SAMPLER_NAME_VALUES = Field(default="euler", description="The scheduler to use" )
unet: UNetField = Field(default=None, description="UNet submodel")
control: Union[ControlField, list[ControlField]] = Field(default=None, description="The control to use")
#seamless: bool = Field(default=False, description="Whether or not to generate an image that can tile without seams", )
#seamless_axes: str = Field(default="", description="The axes to tile the image on, 'x' and/or 'y'")
# fmt: on
seed: int = Field(ge=0, le=np.iinfo(np.uint32).max, description="The seed to use", default_factory=random_seed)
width: int = Field(default=512, multiple_of=64, gt=0, description="The width of the resulting noise", )
height: int = Field(default=512, multiple_of=64, gt=0, description="The height of the resulting noise", )
@validator("cfg_scale")
def ge_one(cls, v):
"""validate that all cfg_scale values are >= 1"""
if isinstance(v, list):
for i in v:
if i < 1:
raise ValueError('cfg_scale must be greater than 1')
else:
if v < 1:
raise ValueError('cfg_scale must be greater than 1')
return v
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents"],
"tags": ["latents", "noise"],
},
}
def invoke(self, context: InvocationContext) -> NoiseOutput:
device = torch.device(choose_torch_device())
noise = get_noise(self.width, self.height, device, self.seed)
name = f'{context.graph_execution_state_id}__{self.id}'
context.services.latents.set(name, noise)
return NoiseOutput(
noise=LatentsField(latents_name=name)
)
# Text to image
class TextToLatentsInvocation(BaseInvocation):
"""Generates latents from a prompt."""
type: Literal["t2l"] = "t2l"
# Inputs
# TODO: consider making prompt optional to enable providing prompt through a link
# fmt: off
prompt: Optional[str] = Field(description="The prompt to generate an image from")
seed: int = Field(default=-1,ge=-1, le=np.iinfo(np.uint32).max, description="The seed to use (-1 for a random seed)", )
noise: Optional[LatentsField] = Field(description="The noise to use")
steps: int = Field(default=10, gt=0, description="The number of steps to use to generate the image")
width: int = Field(default=512, multiple_of=64, gt=0, description="The width of the resulting image", )
height: int = Field(default=512, multiple_of=64, gt=0, description="The height of the resulting image", )
cfg_scale: float = Field(default=7.5, gt=0, description="The Classifier-Free Guidance, higher values may result in a result closer to the prompt", )
scheduler: SAMPLER_NAME_VALUES = Field(default="k_lms", description="The scheduler to use" )
seamless: bool = Field(default=False, description="Whether or not to generate an image that can tile without seams", )
seamless_axes: str = Field(default="", description="The axes to tile the image on, 'x' and/or 'y'")
model: str = Field(default="", description="The model to use (currently ignored)")
progress_images: bool = Field(default=False, description="Whether or not to produce progress images during generation", )
# fmt: on
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents", "image"],
"type_hints": {
"model": "model",
"control": "control",
# "cfg_scale": "float",
"cfg_scale": "number"
"model": "model"
}
},
}
@ -139,140 +176,51 @@ class TextToLatentsInvocation(BaseInvocation):
stable_diffusion_step_callback(
context=context,
intermediate_state=intermediate_state,
node=self.dict(),
invocation_dict=self.dict(),
source_node_id=source_node_id,
)
def get_conditioning_data(self, context: InvocationContext, scheduler) -> ConditioningData:
c, extra_conditioning_info = context.services.latents.get(self.positive_conditioning.conditioning_name)
uc, _ = context.services.latents.get(self.negative_conditioning.conditioning_name)
def get_model(self, model_manager: ModelManager) -> StableDiffusionGeneratorPipeline:
model_info = choose_model(model_manager, self.model)
model_name = model_info['model_name']
model_hash = model_info['hash']
model: StableDiffusionGeneratorPipeline = model_info['model']
model.scheduler = get_scheduler(
model=model,
scheduler_name=self.scheduler
)
if isinstance(model, DiffusionPipeline):
for component in [model.unet, model.vae]:
configure_model_padding(component,
self.seamless,
self.seamless_axes
)
else:
configure_model_padding(model,
self.seamless,
self.seamless_axes
)
return model
def get_conditioning_data(self, model: StableDiffusionGeneratorPipeline) -> ConditioningData:
uc, c, extra_conditioning_info = get_uc_and_c_and_ec(self.prompt, model=model)
conditioning_data = ConditioningData(
unconditioned_embeddings=uc,
text_embeddings=c,
guidance_scale=self.cfg_scale,
extra=extra_conditioning_info,
uc,
c,
self.cfg_scale,
extra_conditioning_info,
postprocessing_settings=PostprocessingSettings(
threshold=0.0,#threshold,
warmup=0.2,#warmup,
h_symmetry_time_pct=None,#h_symmetry_time_pct,
v_symmetry_time_pct=None#v_symmetry_time_pct,
),
)
conditioning_data = conditioning_data.add_scheduler_args_if_applicable(
scheduler,
# for ddim scheduler
eta=0.0, #ddim_eta
# for ancestral and sde schedulers
generator=torch.Generator(device=uc.device).manual_seed(0),
)
).add_scheduler_args_if_applicable(model.scheduler, eta=None)#ddim_eta)
return conditioning_data
def create_pipeline(self, unet, scheduler) -> StableDiffusionGeneratorPipeline:
# TODO:
#configure_model_padding(
# unet,
# self.seamless,
# self.seamless_axes,
#)
class FakeVae:
class FakeVaeConfig:
def __init__(self):
self.block_out_channels = [0]
def __init__(self):
self.config = FakeVae.FakeVaeConfig()
return StableDiffusionGeneratorPipeline(
vae=FakeVae(), # TODO: oh...
text_encoder=None,
tokenizer=None,
unet=unet,
scheduler=scheduler,
safety_checker=None,
feature_extractor=None,
requires_safety_checker=False,
precision="float16" if unet.dtype == torch.float16 else "float32",
)
def prep_control_data(
self,
context: InvocationContext,
model: StableDiffusionGeneratorPipeline, # really only need model for dtype and device
control_input: List[ControlField],
latents_shape: List[int],
do_classifier_free_guidance: bool = True,
) -> List[ControlNetData]:
# assuming fixed dimensional scaling of 8:1 for image:latents
control_height_resize = latents_shape[2] * 8
control_width_resize = latents_shape[3] * 8
if control_input is None:
control_list = None
elif isinstance(control_input, list) and len(control_input) == 0:
control_list = None
elif isinstance(control_input, ControlField):
control_list = [control_input]
elif isinstance(control_input, list) and len(control_input) > 0 and isinstance(control_input[0], ControlField):
control_list = control_input
else:
control_list = None
if (control_list is None):
control_data = None
# from above handling, any control that is not None should now be of type list[ControlField]
else:
# FIXME: add checks to skip entry if model or image is None
# and if weight is None, populate with default 1.0?
control_data = []
control_models = []
for control_info in control_list:
# handle control models
if ("," in control_info.control_model):
control_model_split = control_info.control_model.split(",")
control_name = control_model_split[0]
control_subfolder = control_model_split[1]
print("Using HF model subfolders")
print(" control_name: ", control_name)
print(" control_subfolder: ", control_subfolder)
control_model = ControlNetModel.from_pretrained(control_name,
subfolder=control_subfolder,
torch_dtype=model.unet.dtype).to(model.device)
else:
control_model = ControlNetModel.from_pretrained(control_info.control_model,
torch_dtype=model.unet.dtype).to(model.device)
control_models.append(control_model)
control_image_field = control_info.image
input_image = context.services.images.get_pil_image(control_image_field.image_name)
# self.image.image_type, self.image.image_name
# FIXME: still need to test with different widths, heights, devices, dtypes
# and add in batch_size, num_images_per_prompt?
# and do real check for classifier_free_guidance?
# prepare_control_image should return torch.Tensor of shape(batch_size, 3, height, width)
control_image = model.prepare_control_image(
image=input_image,
do_classifier_free_guidance=do_classifier_free_guidance,
width=control_width_resize,
height=control_height_resize,
# batch_size=batch_size * num_images_per_prompt,
# num_images_per_prompt=num_images_per_prompt,
device=control_model.device,
dtype=control_model.dtype,
control_mode=control_info.control_mode,
)
control_item = ControlNetData(model=control_model,
image_tensor=control_image,
weight=control_info.control_weight,
begin_step_percent=control_info.begin_step_percent,
end_step_percent=control_info.end_step_percent,
control_mode=control_info.control_mode,
)
control_data.append(control_item)
# MultiControlNetModel has been refactored out, just need list[ControlNetData]
return control_data
def invoke(self, context: InvocationContext) -> LatentsOutput:
noise = context.services.latents.get(self.noise.latents_name)
@ -284,67 +232,49 @@ class TextToLatentsInvocation(BaseInvocation):
def step_callback(state: PipelineIntermediateState):
self.dispatch_progress(context, source_node_id, state)
unet_info = context.services.model_manager.get_model(**self.unet.unet.dict())
with unet_info as unet:
model = self.get_model(context.services.model_manager)
conditioning_data = self.get_conditioning_data(model)
scheduler = get_scheduler(
context=context,
scheduler_info=self.unet.scheduler,
scheduler_name=self.scheduler,
)
pipeline = self.create_pipeline(unet, scheduler)
conditioning_data = self.get_conditioning_data(context, scheduler)
# TODO: Verify the noise is the right size
loras = [(context.services.model_manager.get_model(**lora.dict(exclude={"weight"})).context.model, lora.weight) for lora in self.unet.loras]
control_data = self.prep_control_data(
model=pipeline, context=context, control_input=self.control,
latents_shape=noise.shape,
# do_classifier_free_guidance=(self.cfg_scale >= 1.0))
do_classifier_free_guidance=True,
)
with ModelPatcher.apply_lora_unet(pipeline.unet, loras):
# TODO: Verify the noise is the right size
result_latents, result_attention_map_saver = pipeline.latents_from_embeddings(
latents=torch.zeros_like(noise, dtype=torch_dtype(unet.device)),
noise=noise,
num_inference_steps=self.steps,
conditioning_data=conditioning_data,
control_data=control_data, # list[ControlNetData]
callback=step_callback,
)
result_latents, result_attention_map_saver = model.latents_from_embeddings(
latents=torch.zeros_like(noise, dtype=torch_dtype(model.device)),
noise=noise,
num_inference_steps=self.steps,
conditioning_data=conditioning_data,
callback=step_callback
)
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
name = f'{context.graph_execution_state_id}__{self.id}'
context.services.latents.save(name, result_latents)
return build_latents_output(latents_name=name, latents=result_latents)
context.services.latents.set(name, result_latents)
return LatentsOutput(
latents=LatentsField(latents_name=name)
)
class LatentsToLatentsInvocation(TextToLatentsInvocation):
"""Generates latents using latents as base image."""
type: Literal["l2l"] = "l2l"
# Inputs
latents: Optional[LatentsField] = Field(description="The latents to use as a base image")
strength: float = Field(default=0.7, ge=0, le=1, description="The strength of the latents to use")
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents"],
"type_hints": {
"model": "model",
"control": "control",
"cfg_scale": "number",
"model": "model"
}
},
}
# Inputs
latents: Optional[LatentsField] = Field(description="The latents to use as a base image")
strength: float = Field(default=0.5, description="The strength of the latents to use")
def invoke(self, context: InvocationContext) -> LatentsOutput:
noise = context.services.latents.get(self.noise.latents_name)
latent = context.services.latents.get(self.latents.latents_name)
@ -356,58 +286,38 @@ class LatentsToLatentsInvocation(TextToLatentsInvocation):
def step_callback(state: PipelineIntermediateState):
self.dispatch_progress(context, source_node_id, state)
unet_info = context.services.model_manager.get_model(
**self.unet.unet.dict(),
model = self.get_model(context.services.model_manager)
conditioning_data = self.get_conditioning_data(model)
# TODO: Verify the noise is the right size
initial_latents = latent if self.strength < 1.0 else torch.zeros_like(
latent, device=model.device, dtype=latent.dtype
)
with unet_info as unet:
timesteps, _ = model.get_img2img_timesteps(
self.steps,
self.strength,
device=model.device,
)
scheduler = get_scheduler(
context=context,
scheduler_info=self.unet.scheduler,
scheduler_name=self.scheduler,
)
pipeline = self.create_pipeline(unet, scheduler)
conditioning_data = self.get_conditioning_data(context, scheduler)
control_data = self.prep_control_data(
model=pipeline, context=context, control_input=self.control,
latents_shape=noise.shape,
# do_classifier_free_guidance=(self.cfg_scale >= 1.0))
do_classifier_free_guidance=True,
)
# TODO: Verify the noise is the right size
initial_latents = latent if self.strength < 1.0 else torch.zeros_like(
latent, device=unet.device, dtype=latent.dtype
)
timesteps, _ = pipeline.get_img2img_timesteps(
self.steps,
self.strength,
device=unet.device,
)
loras = [(context.services.model_manager.get_model(**lora.dict(exclude={"weight"})).context.model, lora.weight) for lora in self.unet.loras]
with ModelPatcher.apply_lora_unet(pipeline.unet, loras):
result_latents, result_attention_map_saver = pipeline.latents_from_embeddings(
latents=initial_latents,
timesteps=timesteps,
noise=noise,
num_inference_steps=self.steps,
conditioning_data=conditioning_data,
control_data=control_data, # list[ControlNetData]
callback=step_callback
)
result_latents, result_attention_map_saver = model.latents_from_embeddings(
latents=initial_latents,
timesteps=timesteps,
noise=noise,
num_inference_steps=self.steps,
conditioning_data=conditioning_data,
callback=step_callback
)
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
name = f'{context.graph_execution_state_id}__{self.id}'
context.services.latents.save(name, result_latents)
return build_latents_output(latents_name=name, latents=result_latents)
context.services.latents.set(name, result_latents)
return LatentsOutput(
latents=LatentsField(latents_name=name)
)
# Latent to image
@ -418,14 +328,16 @@ class LatentsToImageInvocation(BaseInvocation):
# Inputs
latents: Optional[LatentsField] = Field(description="The latents to generate an image from")
vae: VaeField = Field(default=None, description="Vae submodel")
tiled: bool = Field(default=False, description="Decode latents by overlaping tiles(less memory consumption)")
model: str = Field(default="", description="The model to use")
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents", "image"],
"type_hints": {
"model": "model"
}
},
}
@ -433,164 +345,26 @@ class LatentsToImageInvocation(BaseInvocation):
def invoke(self, context: InvocationContext) -> ImageOutput:
latents = context.services.latents.get(self.latents.latents_name)
vae_info = context.services.model_manager.get_model(
**self.vae.vae.dict(),
)
# TODO: this only really needs the vae
model_info = choose_model(context.services.model_manager, self.model)
model: StableDiffusionGeneratorPipeline = model_info['model']
with vae_info as vae:
if self.tiled or context.services.configuration.tiled_decode:
vae.enable_tiling()
else:
vae.disable_tiling()
with torch.inference_mode():
np_image = model.decode_latents(latents)
image = model.numpy_to_pil(np_image)[0]
# clear memory as vae decode can request a lot
torch.cuda.empty_cache()
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
with torch.inference_mode():
# copied from diffusers pipeline
latents = latents / vae.config.scaling_factor
image = vae.decode(latents, return_dict=False)[0]
image = (image / 2 + 0.5).clamp(0, 1) # denormalize
# we always cast to float32 as this does not cause significant overhead and is compatible with bfloat16
np_image = image.cpu().permute(0, 2, 3, 1).float().numpy()
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
image = VaeImageProcessor.numpy_to_pil(np_image)[0]
torch.cuda.empty_cache()
image_dto = context.services.images.create(
image=image,
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
)
LATENTS_INTERPOLATION_MODE = Literal[
"nearest", "linear", "bilinear", "bicubic", "trilinear", "area", "nearest-exact"
]
class ResizeLatentsInvocation(BaseInvocation):
"""Resizes latents to explicit width/height (in pixels). Provided dimensions are floor-divided by 8."""
type: Literal["lresize"] = "lresize"
# Inputs
latents: Optional[LatentsField] = Field(description="The latents to resize")
width: int = Field(ge=64, multiple_of=8, description="The width to resize to (px)")
height: int = Field(ge=64, multiple_of=8, description="The height to resize to (px)")
mode: LATENTS_INTERPOLATION_MODE = Field(default="bilinear", description="The interpolation mode")
antialias: bool = Field(default=False, description="Whether or not to antialias (applied in bilinear and bicubic modes only)")
def invoke(self, context: InvocationContext) -> LatentsOutput:
latents = context.services.latents.get(self.latents.latents_name)
resized_latents = torch.nn.functional.interpolate(
latents,
size=(self.height // 8, self.width // 8),
mode=self.mode,
antialias=self.antialias if self.mode in ["bilinear", "bicubic"] else False,
)
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
name = f"{context.graph_execution_state_id}__{self.id}"
# context.services.latents.set(name, resized_latents)
context.services.latents.save(name, resized_latents)
return build_latents_output(latents_name=name, latents=resized_latents)
class ScaleLatentsInvocation(BaseInvocation):
"""Scales latents by a given factor."""
type: Literal["lscale"] = "lscale"
# Inputs
latents: Optional[LatentsField] = Field(description="The latents to scale")
scale_factor: float = Field(gt=0, description="The factor by which to scale the latents")
mode: LATENTS_INTERPOLATION_MODE = Field(default="bilinear", description="The interpolation mode")
antialias: bool = Field(default=False, description="Whether or not to antialias (applied in bilinear and bicubic modes only)")
def invoke(self, context: InvocationContext) -> LatentsOutput:
latents = context.services.latents.get(self.latents.latents_name)
# resizing
resized_latents = torch.nn.functional.interpolate(
latents,
scale_factor=self.scale_factor,
mode=self.mode,
antialias=self.antialias if self.mode in ["bilinear", "bicubic"] else False,
)
# https://discuss.huggingface.co/t/memory-usage-by-later-pipeline-stages/23699
torch.cuda.empty_cache()
name = f"{context.graph_execution_state_id}__{self.id}"
# context.services.latents.set(name, resized_latents)
context.services.latents.save(name, resized_latents)
return build_latents_output(latents_name=name, latents=resized_latents)
class ImageToLatentsInvocation(BaseInvocation):
"""Encodes an image into latents."""
type: Literal["i2l"] = "i2l"
# Inputs
image: Union[ImageField, None] = Field(description="The image to encode")
vae: VaeField = Field(default=None, description="Vae submodel")
tiled: bool = Field(default=False, description="Encode latents by overlaping tiles(less memory consumption)")
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents", "image"],
},
}
@torch.no_grad()
def invoke(self, context: InvocationContext) -> LatentsOutput:
# image = context.services.images.get(
# self.image.image_type, self.image.image_name
# )
image = context.services.images.get_pil_image(self.image.image_name)
#vae_info = context.services.model_manager.get_model(**self.vae.vae.dict())
vae_info = context.services.model_manager.get_model(
**self.vae.vae.dict(),
)
image_tensor = image_resized_to_grid_as_tensor(image.convert("RGB"))
if image_tensor.dim() == 3:
image_tensor = einops.rearrange(image_tensor, "c h w -> 1 c h w")
with vae_info as vae:
if self.tiled:
vae.enable_tiling()
else:
vae.disable_tiling()
# non_noised_latents_from_image
image_tensor = image_tensor.to(device=vae.device, dtype=vae.dtype)
with torch.inference_mode():
image_tensor_dist = vae.encode(image_tensor).latent_dist
latents = image_tensor_dist.sample().to(
dtype=vae.dtype
) # FIXME: uses torch.randn. make reproducible!
latents = 0.18215 * latents
name = f"{context.graph_execution_state_id}__{self.id}"
# context.services.latents.set(name, latents)
context.services.latents.save(name, latents)
return build_latents_output(latents_name=name, latents=latents)
context.services.images.save(image_type, image_name, image, metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=image
)

56
invokeai/app/invocations/math.py
View File

@ -3,14 +3,8 @@
from typing import Literal
from pydantic import BaseModel, Field
import numpy as np
from .baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
InvocationContext,
InvocationConfig,
)
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext, InvocationConfig
class MathInvocationConfig(BaseModel):
@ -27,30 +21,19 @@ class MathInvocationConfig(BaseModel):
class IntOutput(BaseInvocationOutput):
"""An integer output"""
# fmt: off
#fmt: off
type: Literal["int_output"] = "int_output"
a: int = Field(default=None, description="The output integer")
# fmt: on
class FloatOutput(BaseInvocationOutput):
"""A float output"""
# fmt: off
type: Literal["float_output"] = "float_output"
param: float = Field(default=None, description="The output float")
# fmt: on
#fmt: on
class AddInvocation(BaseInvocation, MathInvocationConfig):
"""Adds two numbers"""
# fmt: off
#fmt: off
type: Literal["add"] = "add"
a: int = Field(default=0, description="The first number")
b: int = Field(default=0, description="The second number")
# fmt: on
#fmt: on
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=self.a + self.b)
@ -58,12 +41,11 @@ class AddInvocation(BaseInvocation, MathInvocationConfig):
class SubtractInvocation(BaseInvocation, MathInvocationConfig):
"""Subtracts two numbers"""
# fmt: off
#fmt: off
type: Literal["sub"] = "sub"
a: int = Field(default=0, description="The first number")
b: int = Field(default=0, description="The second number")
# fmt: on
#fmt: on
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=self.a - self.b)
@ -71,12 +53,11 @@ class SubtractInvocation(BaseInvocation, MathInvocationConfig):
class MultiplyInvocation(BaseInvocation, MathInvocationConfig):
"""Multiplies two numbers"""
# fmt: off
#fmt: off
type: Literal["mul"] = "mul"
a: int = Field(default=0, description="The first number")
b: int = Field(default=0, description="The second number")
# fmt: on
#fmt: on
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=self.a * self.b)
@ -84,26 +65,11 @@ class MultiplyInvocation(BaseInvocation, MathInvocationConfig):
class DivideInvocation(BaseInvocation, MathInvocationConfig):
"""Divides two numbers"""
# fmt: off
#fmt: off
type: Literal["div"] = "div"
a: int = Field(default=0, description="The first number")
b: int = Field(default=0, description="The second number")
# fmt: on
#fmt: on
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=int(self.a / self.b))
class RandomIntInvocation(BaseInvocation):
"""Outputs a single random integer."""
# fmt: off
type: Literal["rand_int"] = "rand_int"
low: int = Field(default=0, description="The inclusive low value")
high: int = Field(
default=np.iinfo(np.int32).max, description="The exclusive high value"
)
# fmt: on
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=np.random.randint(self.low, self.high))

223
invokeai/app/invocations/model.py
View File

@ -1,223 +0,0 @@
from typing import Literal, Optional, Union, List
from pydantic import BaseModel, Field
import copy
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext, InvocationConfig
from ...backend.util.devices import choose_torch_device, torch_dtype
from ...backend.model_management import BaseModelType, ModelType, SubModelType
class ModelInfo(BaseModel):
model_name: str = Field(description="Info to load submodel")
base_model: BaseModelType = Field(description="Base model")
model_type: ModelType = Field(description="Info to load submodel")
submodel: Optional[SubModelType] = Field(description="Info to load submodel")
class LoraInfo(ModelInfo):
weight: float = Field(description="Lora's weight which to use when apply to model")
class UNetField(BaseModel):
unet: ModelInfo = Field(description="Info to load unet submodel")
scheduler: ModelInfo = Field(description="Info to load scheduler submodel")
loras: List[LoraInfo] = Field(description="Loras to apply on model loading")
class ClipField(BaseModel):
tokenizer: ModelInfo = Field(description="Info to load tokenizer submodel")
text_encoder: ModelInfo = Field(description="Info to load text_encoder submodel")
loras: List[LoraInfo] = Field(description="Loras to apply on model loading")
class VaeField(BaseModel):
# TODO: better naming?
vae: ModelInfo = Field(description="Info to load vae submodel")
class ModelLoaderOutput(BaseInvocationOutput):
"""Model loader output"""
#fmt: off
type: Literal["model_loader_output"] = "model_loader_output"
unet: UNetField = Field(default=None, description="UNet submodel")
clip: ClipField = Field(default=None, description="Tokenizer and text_encoder submodels")
vae: VaeField = Field(default=None, description="Vae submodel")
#fmt: on
class PipelineModelField(BaseModel):
"""Pipeline model field"""
model_name: str = Field(description="Name of the model")
base_model: BaseModelType = Field(description="Base model")
class PipelineModelLoaderInvocation(BaseInvocation):
"""Loads a pipeline model, outputting its submodels."""
type: Literal["pipeline_model_loader"] = "pipeline_model_loader"
model: PipelineModelField = Field(description="The model to load")
# TODO: precision?
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["model", "loader"],
"type_hints": {
"model": "model"
}
},
}
def invoke(self, context: InvocationContext) -> ModelLoaderOutput:
base_model = self.model.base_model
model_name = self.model.model_name
model_type = ModelType.Main
# TODO: not found exceptions
if not context.services.model_manager.model_exists(
model_name=model_name,
base_model=base_model,
model_type=model_type,
):
raise Exception(f"Unknown {base_model} {model_type} model: {model_name}")
"""
if not context.services.model_manager.model_exists(
model_name=self.model_name,
model_type=SDModelType.Diffusers,
submodel=SDModelType.Tokenizer,
):
raise Exception(
f"Failed to find tokenizer submodel in {self.model_name}! Check if model corrupted"
)
if not context.services.model_manager.model_exists(
model_name=self.model_name,
model_type=SDModelType.Diffusers,
submodel=SDModelType.TextEncoder,
):
raise Exception(
f"Failed to find text_encoder submodel in {self.model_name}! Check if model corrupted"
)
if not context.services.model_manager.model_exists(
model_name=self.model_name,
model_type=SDModelType.Diffusers,
submodel=SDModelType.UNet,
):
raise Exception(
f"Failed to find unet submodel from {self.model_name}! Check if model corrupted"
)
"""
return ModelLoaderOutput(
unet=UNetField(
unet=ModelInfo(
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=SubModelType.UNet,
),
scheduler=ModelInfo(
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=SubModelType.Scheduler,
),
loras=[],
),
clip=ClipField(
tokenizer=ModelInfo(
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=SubModelType.Tokenizer,
),
text_encoder=ModelInfo(
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=SubModelType.TextEncoder,
),
loras=[],
),
vae=VaeField(
vae=ModelInfo(
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=SubModelType.Vae,
),
)
)
class LoraLoaderOutput(BaseInvocationOutput):
"""Model loader output"""
#fmt: off
type: Literal["lora_loader_output"] = "lora_loader_output"
unet: Optional[UNetField] = Field(default=None, description="UNet submodel")
clip: Optional[ClipField] = Field(default=None, description="Tokenizer and text_encoder submodels")
#fmt: on
class LoraLoaderInvocation(BaseInvocation):
"""Apply selected lora to unet and text_encoder."""
type: Literal["lora_loader"] = "lora_loader"
lora_name: str = Field(description="Lora model name")
weight: float = Field(default=0.75, description="With what weight to apply lora")
unet: Optional[UNetField] = Field(description="UNet model for applying lora")
clip: Optional[ClipField] = Field(description="Clip model for applying lora")
def invoke(self, context: InvocationContext) -> LoraLoaderOutput:
# TODO: ui rewrite
base_model = BaseModelType.StableDiffusion1
if not context.services.model_manager.model_exists(
base_model=base_model,
model_name=self.lora_name,
model_type=ModelType.Lora,
):
raise Exception(f"Unkown lora name: {self.lora_name}!")
if self.unet is not None and any(lora.model_name == self.lora_name for lora in self.unet.loras):
raise Exception(f"Lora \"{self.lora_name}\" already applied to unet")
if self.clip is not None and any(lora.model_name == self.lora_name for lora in self.clip.loras):
raise Exception(f"Lora \"{self.lora_name}\" already applied to clip")
output = LoraLoaderOutput()
if self.unet is not None:
output.unet = copy.deepcopy(self.unet)
output.unet.loras.append(
LoraInfo(
base_model=base_model,
model_name=self.lora_name,
model_type=ModelType.Lora,
submodel=None,
weight=self.weight,
)
)
if self.clip is not None:
output.clip = copy.deepcopy(self.clip)
output.clip.loras.append(
LoraInfo(
base_model=base_model,
model_name=self.lora_name,
model_type=ModelType.Lora,
submodel=None,
weight=self.weight,
)
)
return output

134
invokeai/app/invocations/noise.py
View File

@ -1,134 +0,0 @@
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654) & the InvokeAI Team
import math
from typing import Literal
from pydantic import Field, validator
import torch
from invokeai.app.invocations.latent import LatentsField
from invokeai.app.util.misc import SEED_MAX, get_random_seed
from ...backend.util.devices import choose_torch_device, torch_dtype
from .baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
InvocationConfig,
InvocationContext,
)
"""
Utilities
"""
def get_noise(
width: int,
height: int,
device: torch.device,
seed: int = 0,
latent_channels: int = 4,
downsampling_factor: int = 8,
use_cpu: bool = True,
perlin: float = 0.0,
):
"""Generate noise for a given image size."""
noise_device_type = "cpu" if (use_cpu or device.type == "mps") else device.type
# limit noise to only the diffusion image channels, not the mask channels
input_channels = min(latent_channels, 4)
generator = torch.Generator(device=noise_device_type).manual_seed(seed)
noise_tensor = torch.randn(
[
1,
input_channels,
height // downsampling_factor,
width // downsampling_factor,
],
dtype=torch_dtype(device),
device=noise_device_type,
generator=generator,
).to(device)
return noise_tensor
"""
Nodes
"""
class NoiseOutput(BaseInvocationOutput):
"""Invocation noise output"""
# fmt: off
type: Literal["noise_output"] = "noise_output"
# Inputs
noise: LatentsField = Field(default=None, description="The output noise")
width: int = Field(description="The width of the noise in pixels")
height: int = Field(description="The height of the noise in pixels")
# fmt: on
def build_noise_output(latents_name: str, latents: torch.Tensor):
return NoiseOutput(
noise=LatentsField(latents_name=latents_name),
width=latents.size()[3] * 8,
height=latents.size()[2] * 8,
)
class NoiseInvocation(BaseInvocation):
"""Generates latent noise."""
type: Literal["noise"] = "noise"
# Inputs
seed: int = Field(
ge=0,
le=SEED_MAX,
description="The seed to use",
default_factory=get_random_seed,
)
width: int = Field(
default=512,
multiple_of=8,
gt=0,
description="The width of the resulting noise",
)
height: int = Field(
default=512,
multiple_of=8,
gt=0,
description="The height of the resulting noise",
)
use_cpu: bool = Field(
default=True,
description="Use CPU for noise generation (for reproducible results across platforms)",
)
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
"ui": {
"tags": ["latents", "noise"],
},
}
@validator("seed", pre=True)
def modulo_seed(cls, v):
"""Returns the seed modulo SEED_MAX to ensure it is within the valid range."""
return v % SEED_MAX
def invoke(self, context: InvocationContext) -> NoiseOutput:
noise = get_noise(
width=self.width,
height=self.height,
device=choose_torch_device(),
seed=self.seed,
use_cpu=self.use_cpu,
)
name = f"{context.graph_execution_state_id}__{self.id}"
context.services.latents.save(name, noise)
return build_noise_output(latents_name=name, latents=noise)

236
invokeai/app/invocations/param_easing.py
View File

@ -1,236 +0,0 @@
import io
from typing import Literal, Optional, Any
# from PIL.Image import Image
import PIL.Image
from matplotlib.ticker import MaxNLocator
from matplotlib.figure import Figure
from pydantic import BaseModel, Field
import numpy as np
import matplotlib.pyplot as plt
from easing_functions import (
LinearInOut,
QuadEaseInOut, QuadEaseIn, QuadEaseOut,
CubicEaseInOut, CubicEaseIn, CubicEaseOut,
QuarticEaseInOut, QuarticEaseIn, QuarticEaseOut,
QuinticEaseInOut, QuinticEaseIn, QuinticEaseOut,
SineEaseInOut, SineEaseIn, SineEaseOut,
CircularEaseIn, CircularEaseInOut, CircularEaseOut,
ExponentialEaseInOut, ExponentialEaseIn, ExponentialEaseOut,
ElasticEaseIn, ElasticEaseInOut, ElasticEaseOut,
BackEaseIn, BackEaseInOut, BackEaseOut,
BounceEaseIn, BounceEaseInOut, BounceEaseOut)
from .baseinvocation import (
BaseInvocation,
BaseInvocationOutput,
InvocationContext,
InvocationConfig,
)
from ...backend.util.logging import InvokeAILogger
from .collections import FloatCollectionOutput
class FloatLinearRangeInvocation(BaseInvocation):
"""Creates a range"""
type: Literal["float_range"] = "float_range"
# Inputs
start: float = Field(default=5, description="The first value of the range")
stop: float = Field(default=10, description="The last value of the range")
steps: int = Field(default=30, description="number of values to interpolate over (including start and stop)")
def invoke(self, context: InvocationContext) -> FloatCollectionOutput:
param_list = list(np.linspace(self.start, self.stop, self.steps))
return FloatCollectionOutput(
collection=param_list
)
EASING_FUNCTIONS_MAP = {
"Linear": LinearInOut,
"QuadIn": QuadEaseIn,
"QuadOut": QuadEaseOut,
"QuadInOut": QuadEaseInOut,
"CubicIn": CubicEaseIn,
"CubicOut": CubicEaseOut,
"CubicInOut": CubicEaseInOut,
"QuarticIn": QuarticEaseIn,
"QuarticOut": QuarticEaseOut,
"QuarticInOut": QuarticEaseInOut,
"QuinticIn": QuinticEaseIn,
"QuinticOut": QuinticEaseOut,
"QuinticInOut": QuinticEaseInOut,
"SineIn": SineEaseIn,
"SineOut": SineEaseOut,
"SineInOut": SineEaseInOut,
"CircularIn": CircularEaseIn,
"CircularOut": CircularEaseOut,
"CircularInOut": CircularEaseInOut,
"ExponentialIn": ExponentialEaseIn,
"ExponentialOut": ExponentialEaseOut,
"ExponentialInOut": ExponentialEaseInOut,
"ElasticIn": ElasticEaseIn,
"ElasticOut": ElasticEaseOut,
"ElasticInOut": ElasticEaseInOut,
"BackIn": BackEaseIn,
"BackOut": BackEaseOut,
"BackInOut": BackEaseInOut,
"BounceIn": BounceEaseIn,
"BounceOut": BounceEaseOut,
"BounceInOut": BounceEaseInOut,
}
EASING_FUNCTION_KEYS: Any = Literal[
tuple(list(EASING_FUNCTIONS_MAP.keys()))
]
# actually I think for now could just use CollectionOutput (which is list[Any]
class StepParamEasingInvocation(BaseInvocation):
"""Experimental per-step parameter easing for denoising steps"""
type: Literal["step_param_easing"] = "step_param_easing"
# Inputs
# fmt: off
easing: EASING_FUNCTION_KEYS = Field(default="Linear", description="The easing function to use")
num_steps: int = Field(default=20, description="number of denoising steps")
start_value: float = Field(default=0.0, description="easing starting value")
end_value: float = Field(default=1.0, description="easing ending value")
start_step_percent: float = Field(default=0.0, description="fraction of steps at which to start easing")
end_step_percent: float = Field(default=1.0, description="fraction of steps after which to end easing")
# if None, then start_value is used prior to easing start
pre_start_value: Optional[float] = Field(default=None, description="value before easing start")
# if None, then end value is used prior to easing end
post_end_value: Optional[float] = Field(default=None, description="value after easing end")
mirror: bool = Field(default=False, description="include mirror of easing function")
# FIXME: add alt_mirror option (alternative to default or mirror), or remove entirely
# alt_mirror: bool = Field(default=False, description="alternative mirroring by dual easing")
show_easing_plot: bool = Field(default=False, description="show easing plot")
# fmt: on
def invoke(self, context: InvocationContext) -> FloatCollectionOutput:
log_diagnostics = False
# convert from start_step_percent to nearest step <= (steps * start_step_percent)
# start_step = int(np.floor(self.num_steps * self.start_step_percent))
start_step = int(np.round(self.num_steps * self.start_step_percent))
# convert from end_step_percent to nearest step >= (steps * end_step_percent)
# end_step = int(np.ceil((self.num_steps - 1) * self.end_step_percent))
end_step = int(np.round((self.num_steps - 1) * self.end_step_percent))
# end_step = int(np.ceil(self.num_steps * self.end_step_percent))
num_easing_steps = end_step - start_step + 1
# num_presteps = max(start_step - 1, 0)
num_presteps = start_step
num_poststeps = self.num_steps - (num_presteps + num_easing_steps)
prelist = list(num_presteps * [self.pre_start_value])
postlist = list(num_poststeps * [self.post_end_value])
if log_diagnostics:
context.services.logger.debug("start_step: " + str(start_step))
context.services.logger.debug("end_step: " + str(end_step))
context.services.logger.debug("num_easing_steps: " + str(num_easing_steps))
context.services.logger.debug("num_presteps: " + str(num_presteps))
context.services.logger.debug("num_poststeps: " + str(num_poststeps))
context.services.logger.debug("prelist size: " + str(len(prelist)))
context.services.logger.debug("postlist size: " + str(len(postlist)))
context.services.logger.debug("prelist: " + str(prelist))
context.services.logger.debug("postlist: " + str(postlist))
easing_class = EASING_FUNCTIONS_MAP[self.easing]
if log_diagnostics:
context.services.logger.debug("easing class: " + str(easing_class))
easing_list = list()
if self.mirror: # "expected" mirroring
# if number of steps is even, squeeze duration down to (number_of_steps)/2
# and create reverse copy of list to append
# if number of steps is odd, squeeze duration down to ceil(number_of_steps/2)
# and create reverse copy of list[1:end-1]
# but if even then number_of_steps/2 === ceil(number_of_steps/2), so can just use ceil always
base_easing_duration = int(np.ceil(num_easing_steps/2.0))
if log_diagnostics: context.services.logger.debug("base easing duration: " + str(base_easing_duration))
even_num_steps = (num_easing_steps % 2 == 0) # even number of steps
easing_function = easing_class(start=self.start_value,
end=self.end_value,
duration=base_easing_duration - 1)
base_easing_vals = list()
for step_index in range(base_easing_duration):
easing_val = easing_function.ease(step_index)
base_easing_vals.append(easing_val)
if log_diagnostics:
context.services.logger.debug("step_index: " + str(step_index) + ", easing_val: " + str(easing_val))
if even_num_steps:
mirror_easing_vals = list(reversed(base_easing_vals))
else:
mirror_easing_vals = list(reversed(base_easing_vals[0:-1]))
if log_diagnostics:
context.services.logger.debug("base easing vals: " + str(base_easing_vals))
context.services.logger.debug("mirror easing vals: " + str(mirror_easing_vals))
easing_list = base_easing_vals + mirror_easing_vals
# FIXME: add alt_mirror option (alternative to default or mirror), or remove entirely
# elif self.alt_mirror: # function mirroring (unintuitive behavior (at least to me))
# # half_ease_duration = round(num_easing_steps - 1 / 2)
# half_ease_duration = round((num_easing_steps - 1) / 2)
# easing_function = easing_class(start=self.start_value,
# end=self.end_value,
# duration=half_ease_duration,
# )
#
# mirror_function = easing_class(start=self.end_value,
# end=self.start_value,
# duration=half_ease_duration,
# )
# for step_index in range(num_easing_steps):
# if step_index <= half_ease_duration:
# step_val = easing_function.ease(step_index)
# else:
# step_val = mirror_function.ease(step_index - half_ease_duration)
# easing_list.append(step_val)
# if log_diagnostics: logger.debug(step_index, step_val)
#
else: # no mirroring (default)
easing_function = easing_class(start=self.start_value,
end=self.end_value,
duration=num_easing_steps - 1)
for step_index in range(num_easing_steps):
step_val = easing_function.ease(step_index)
easing_list.append(step_val)
if log_diagnostics:
context.services.logger.debug("step_index: " + str(step_index) + ", easing_val: " + str(step_val))
if log_diagnostics:
context.services.logger.debug("prelist size: " + str(len(prelist)))
context.services.logger.debug("easing_list size: " + str(len(easing_list)))
context.services.logger.debug("postlist size: " + str(len(postlist)))
param_list = prelist + easing_list + postlist
if self.show_easing_plot:
plt.figure()
plt.xlabel("Step")
plt.ylabel("Param Value")
plt.title("Per-Step Values Based On Easing: " + self.easing)
plt.bar(range(len(param_list)), param_list)
# plt.plot(param_list)
ax = plt.gca()
ax.xaxis.set_major_locator(MaxNLocator(integer=True))
buf = io.BytesIO()
plt.savefig(buf, format='png')
buf.seek(0)
im = PIL.Image.open(buf)
im.show()
buf.close()
# output array of size steps, each entry list[i] is param value for step i
return FloatCollectionOutput(
collection=param_list
)

12
invokeai/app/invocations/params.py
View File

@ -3,7 +3,7 @@
from typing import Literal
from pydantic import Field
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext
from .math import IntOutput, FloatOutput
from .math import IntOutput
# Pass-through parameter nodes - used by subgraphs
@ -16,13 +16,3 @@ class ParamIntInvocation(BaseInvocation):
def invoke(self, context: InvocationContext) -> IntOutput:
return IntOutput(a=self.a)
class ParamFloatInvocation(BaseInvocation):
"""A float parameter"""
#fmt: off
type: Literal["param_float"] = "param_float"
param: float = Field(default=0.0, description="The float value")
#fmt: on
def invoke(self, context: InvocationContext) -> FloatOutput:
return FloatOutput(param=self.param)

39
invokeai/app/invocations/prompt.py
View File

@ -2,8 +2,8 @@ from typing import Literal
from pydantic.fields import Field
from .baseinvocation import BaseInvocation, BaseInvocationOutput, InvocationContext
from dynamicprompts.generators import RandomPromptGenerator, CombinatorialPromptGenerator
from .baseinvocation import BaseInvocationOutput
class PromptOutput(BaseInvocationOutput):
"""Base class for invocations that output a prompt"""
@ -20,38 +20,3 @@ class PromptOutput(BaseInvocationOutput):
'prompt',
]
}
class PromptCollectionOutput(BaseInvocationOutput):
"""Base class for invocations that output a collection of prompts"""
# fmt: off
type: Literal["prompt_collection_output"] = "prompt_collection_output"
prompt_collection: list[str] = Field(description="The output prompt collection")
count: int = Field(description="The size of the prompt collection")
# fmt: on
class Config:
schema_extra = {"required": ["type", "prompt_collection", "count"]}
class DynamicPromptInvocation(BaseInvocation):
"""Parses a prompt using adieyal/dynamicprompts' random or combinatorial generator"""
type: Literal["dynamic_prompt"] = "dynamic_prompt"
prompt: str = Field(description="The prompt to parse with dynamicprompts")
max_prompts: int = Field(default=1, description="The number of prompts to generate")
combinatorial: bool = Field(
default=False, description="Whether to use the combinatorial generator"
)
def invoke(self, context: InvocationContext) -> PromptCollectionOutput:
if self.combinatorial:
generator = CombinatorialPromptGenerator()
prompts = generator.generate(self.prompt, max_prompts=self.max_prompts)
else:
generator = RandomPromptGenerator()
prompts = generator.generate(self.prompt, num_images=self.max_prompts)
return PromptCollectionOutput(prompt_collection=prompts, count=len(prompts))

40
invokeai/app/invocations/reconstruct.py
View File

@ -2,23 +2,22 @@ from typing import Literal, Union
from pydantic import Field
from invokeai.app.models.image import ImageCategory, ImageField, ResourceOrigin
from invokeai.app.models.image import ImageField, ImageType
from invokeai.app.modules.metadata import MetadataModule
from .baseinvocation import BaseInvocation, InvocationContext, InvocationConfig
from .image import ImageOutput
from .image import ImageOutput, build_image_output
class RestoreFaceInvocation(BaseInvocation):
"""Restores faces in an image."""
# fmt: off
#fmt: off
type: Literal["restore_face"] = "restore_face"
# Inputs
image: Union[ImageField, None] = Field(description="The input image")
strength: float = Field(default=0.75, gt=0, le=1, description="The strength of the restoration" )
# fmt: on
#fmt: on
# Schema customisation
class Config(InvocationConfig):
schema_extra = {
@ -28,7 +27,9 @@ class RestoreFaceInvocation(BaseInvocation):
}
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
results = context.services.restoration.upscale_and_reconstruct(
image_list=[[image, 0]],
upscale=None,
@ -39,17 +40,18 @@ class RestoreFaceInvocation(BaseInvocation):
# Results are image and seed, unwrap for now
# TODO: can this return multiple results?
image_dto = context.services.images.create(
image=results[0][0],
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, results[0][0], metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=results[0][0]
)

38
invokeai/app/invocations/upscale.py
View File

@ -4,22 +4,23 @@ from typing import Literal, Union
from pydantic import Field
from invokeai.app.models.image import ImageCategory, ImageField, ResourceOrigin
from invokeai.app.models.image import ImageField, ImageType
from invokeai.app.modules.metadata import MetadataModule
from .baseinvocation import BaseInvocation, InvocationContext, InvocationConfig
from .image import ImageOutput
from .image import ImageOutput, build_image_output
class UpscaleInvocation(BaseInvocation):
"""Upscales an image."""
# fmt: off
#fmt: off
type: Literal["upscale"] = "upscale"
# Inputs
image: Union[ImageField, None] = Field(description="The input image", default=None)
strength: float = Field(default=0.75, gt=0, le=1, description="The strength")
level: Literal[2, 4] = Field(default=2, description="The upscale level")
# fmt: on
#fmt: on
# Schema customisation
class Config(InvocationConfig):
@ -30,7 +31,9 @@ class UpscaleInvocation(BaseInvocation):
}
def invoke(self, context: InvocationContext) -> ImageOutput:
image = context.services.images.get_pil_image(self.image.image_name)
image = context.services.images.get(
self.image.image_type, self.image.image_name
)
results = context.services.restoration.upscale_and_reconstruct(
image_list=[[image, 0]],
upscale=(self.level, self.strength),
@ -41,17 +44,18 @@ class UpscaleInvocation(BaseInvocation):
# Results are image and seed, unwrap for now
# TODO: can this return multiple results?
image_dto = context.services.images.create(
image=results[0][0],
image_origin=ResourceOrigin.INTERNAL,
image_category=ImageCategory.GENERAL,
node_id=self.id,
session_id=context.graph_execution_state_id,
is_intermediate=self.is_intermediate,
image_type = ImageType.RESULT
image_name = context.services.images.create_name(
context.graph_execution_state_id, self.id
)
return ImageOutput(
image=ImageField(image_name=image_dto.image_name),
width=image_dto.width,
height=image_dto.height,
metadata = MetadataModule.build_metadata(
session_id=context.graph_execution_state_id, invocation=self
)
context.services.images.save(image_type, image_name, results[0][0], metadata)
return build_image_output(
image_type=image_type,
image_name=image_name,
image=results[0][0]
)

14
invokeai/app/invocations/util/choose_model.py Normal file
View File

@ -0,0 +1,14 @@
from invokeai.backend.model_management.model_manager import ModelManager
def choose_model(model_manager: ModelManager, model_name: str):
"""Returns the default model if the `model_name` not a valid model, else returns the selected model."""
if model_manager.valid_model(model_name):
model = model_manager.get_model(model_name)
else:
model = model_manager.get_model()
print(
f"* Warning: '{model_name}' is not a valid model name. Using default model \'{model['model_name']}\' instead."
)
return model

89
invokeai/app/models/image.py
View File

@ -1,90 +1,23 @@
from enum import Enum
from typing import Optional, Tuple
from typing import Optional
from pydantic import BaseModel, Field
from invokeai.app.util.metaenum import MetaEnum
class ResourceOrigin(str, Enum, metaclass=MetaEnum):
"""The origin of a resource (eg image).
- INTERNAL: The resource was created by the application.
- EXTERNAL: The resource was not created by the application.
This may be a user-initiated upload, or an internal application upload (eg Canvas init image).
"""
INTERNAL = "internal"
"""The resource was created by the application."""
EXTERNAL = "external"
"""The resource was not created by the application.
This may be a user-initiated upload, or an internal application upload (eg Canvas init image).
"""
class InvalidOriginException(ValueError):
"""Raised when a provided value is not a valid ResourceOrigin.
Subclasses `ValueError`.
"""
def __init__(self, message="Invalid resource origin."):
super().__init__(message)
class ImageCategory(str, Enum, metaclass=MetaEnum):
"""The category of an image.
- GENERAL: The image is an output, init image, or otherwise an image without a specialized purpose.
- MASK: The image is a mask image.
- CONTROL: The image is a ControlNet control image.
- USER: The image is a user-provide image.
- OTHER: The image is some other type of image with a specialized purpose. To be used by external nodes.
"""
GENERAL = "general"
"""GENERAL: The image is an output, init image, or otherwise an image without a specialized purpose."""
MASK = "mask"
"""MASK: The image is a mask image."""
CONTROL = "control"
"""CONTROL: The image is a ControlNet control image."""
USER = "user"
"""USER: The image is a user-provide image."""
OTHER = "other"
"""OTHER: The image is some other type of image with a specialized purpose. To be used by external nodes."""
class InvalidImageCategoryException(ValueError):
"""Raised when a provided value is not a valid ImageCategory.
Subclasses `ValueError`.
"""
def __init__(self, message="Invalid image category."):
super().__init__(message)
class ImageType(str, Enum):
RESULT = "results"
INTERMEDIATE = "intermediates"
UPLOAD = "uploads"
class ImageField(BaseModel):
"""An image field used for passing image objects between invocations"""
image_type: ImageType = Field(
default=ImageType.RESULT, description="The type of the image"
)
image_name: Optional[str] = Field(default=None, description="The name of the image")
class Config:
schema_extra = {"required": ["image_name"]}
class ColorField(BaseModel):
r: int = Field(ge=0, le=255, description="The red component")
g: int = Field(ge=0, le=255, description="The green component")
b: int = Field(ge=0, le=255, description="The blue component")
a: int = Field(ge=0, le=255, description="The alpha component")
def tuple(self) -> Tuple[int, int, int, int]:
return (self.r, self.g, self.b, self.a)
class ProgressImage(BaseModel):
"""The progress image sent intermittently during processing"""
width: int = Field(description="The effective width of the image in pixels")
height: int = Field(description="The effective height of the image in pixels")
dataURL: str = Field(description="The image data as a b64 data URL")
schema_extra = {
"required": ["image_type", "image_name"]
}

93
invokeai/app/models/metadata.py
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@ -1,93 +0,0 @@
from typing import Optional, Union, List
from pydantic import BaseModel, Extra, Field, StrictFloat, StrictInt, StrictStr
class ImageMetadata(BaseModel):
"""
Core generation metadata for an image/tensor generated in InvokeAI.
Also includes any metadata from the image's PNG tEXt chunks.
Generated by traversing the execution graph, collecting the parameters of the nearest ancestors
of a given node.
Full metadata may be accessed by querying for the session in the `graph_executions` table.
"""
class Config:
extra = Extra.allow
"""
This lets the ImageMetadata class accept arbitrary additional fields. The CoreMetadataService
won't add any fields that are not already defined, but other a different metadata service
implementation might.
"""
type: Optional[StrictStr] = Field(
default=None,
description="The type of the ancestor node of the image output node.",
)
"""The type of the ancestor node of the image output node."""
positive_conditioning: Optional[StrictStr] = Field(
default=None, description="The positive conditioning."
)
"""The positive conditioning"""
negative_conditioning: Optional[StrictStr] = Field(
default=None, description="The negative conditioning."
)
"""The negative conditioning"""
width: Optional[StrictInt] = Field(
default=None, description="Width of the image/latents in pixels."
)
"""Width of the image/latents in pixels"""
height: Optional[StrictInt] = Field(
default=None, description="Height of the image/latents in pixels."
)
"""Height of the image/latents in pixels"""
seed: Optional[StrictInt] = Field(
default=None, description="The seed used for noise generation."
)
"""The seed used for noise generation"""
# cfg_scale: Optional[StrictFloat] = Field(
# cfg_scale: Union[float, list[float]] = Field(
cfg_scale: Union[StrictFloat, List[StrictFloat]] = Field(
default=None, description="The classifier-free guidance scale."
)
"""The classifier-free guidance scale"""
steps: Optional[StrictInt] = Field(
default=None, description="The number of steps used for inference."
)
"""The number of steps used for inference"""
scheduler: Optional[StrictStr] = Field(
default=None, description="The scheduler used for inference."
)
"""The scheduler used for inference"""
model: Optional[StrictStr] = Field(
default=None, description="The model used for inference."
)
"""The model used for inference"""
strength: Optional[StrictFloat] = Field(
default=None,
description="The strength used for image-to-image/latents-to-latents.",
)
"""The strength used for image-to-image/latents-to-latents."""
latents: Optional[StrictStr] = Field(
default=None, description="The ID of the initial latents."
)
"""The ID of the initial latents"""
vae: Optional[StrictStr] = Field(
default=None, description="The VAE used for decoding."
)
"""The VAE used for decoding"""
unet: Optional[StrictStr] = Field(
default=None, description="The UNet used dor inference."
)
"""The UNet used dor inference"""
clip: Optional[StrictStr] = Field(
default=None, description="The CLIP Encoder used for conditioning."
)
"""The CLIP Encoder used for conditioning"""
extra: Optional[StrictStr] = Field(
default=None,
description="Uploaded image metadata, extracted from the PNG tEXt chunk.",
)
"""Uploaded image metadata, extracted from the PNG tEXt chunk."""

180
invokeai/app/modules/metadata.py Normal file
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import json
from typing import Any, Dict, Literal, Optional
from PIL import Image, PngImagePlugin
from pydantic import (
BaseModel,
Extra,
Field,
StrictBool,
StrictInt,
StrictStr,
ValidationError,
root_validator,
)
from invokeai.app.models.image import ImageType
class MetadataImageField(BaseModel):
"""A non-nullable version of ImageField"""
image_type: Literal[tuple([t.value for t in ImageType])] # type: ignore
image_name: StrictStr
class MetadataLatentsField(BaseModel):
"""A non-nullable version of LatentsField"""
latents_name: StrictStr
# Union of all valid metadata field types - use mostly strict types
NodeMetadataFieldTypes = (
StrictStr | StrictInt | float | StrictBool # we want to cast ints to floats here
)
class NodeMetadataField(BaseModel):
"""Helper class used as a hack for arbitrary metadata field keys."""
__root__: Dict[StrictStr, NodeMetadataFieldTypes]
# `extra=Extra.allow` allows this to model any potential node with `id` and `type` fields
class NodeMetadata(BaseModel, extra=Extra.allow):
"""Node metadata model, used for validation of metadata."""
@root_validator
def validate_node_metadata(cls, values: dict[str, Any]) -> dict[str, Any]:
"""Parses the node metadata, ignoring invalid values"""
parsed: dict[str, Any] = {}
# Conditionally build the parsed metadata, silently skipping invalid values
for name, value in values.items():
# explicitly parse `id` and `type` as strings
if name == "id":
if type(value) is not str:
continue
parsed[name] = value
elif name == "type":
if type(value) is not str:
continue
parsed[name] = value
else:
try:
if type(value) is dict:
# we only allow certain dicts, else just ignore the value entirely
if "image_name" in value or "image_type" in value:
# parse as an ImageField
parsed[name] = MetadataImageField.parse_obj(value)
elif "latents_name" in value:
# this is a LatentsField
parsed[name] = MetadataLatentsField.parse_obj(value)
else:
# hack to get parse and validate arbitrary keys
NodeMetadataField.parse_obj({name: value})
parsed[name] = value
except ValidationError:
# TODO: do we want to somehow alert when metadata is not fully valid?
continue
return parsed
class InvokeAIMetadata(BaseModel):
session_id: Optional[StrictStr] = Field(
description="The session in which this image was created"
)
node: Optional[NodeMetadata] = Field(description="The node that created this image")
@root_validator(pre=True)
def validate_invokeai_metadata(cls, values: dict[str, Any]) -> dict[str, Any]:
parsed: dict[str, Any] = {}
# Conditionally build the parsed metadata, silently skipping invalid values
for name, value in values.items():
if name == "session_id":
if type(value) is not str:
continue
parsed[name] = value
elif name == "node":
try:
p = NodeMetadata.parse_obj(value)
# check for empty NodeMetadata object
if len(p.dict().items()) == 0:
continue
except ValidationError:
continue
parsed[name] = value
return parsed
class ImageMetadata(BaseModel):
"""An image's metadata. Used only in HTTP responses."""
created: int = Field(description="The creation timestamp of the image")
width: int = Field(description="The width of the image in pixels")
height: int = Field(description="The height of the image in pixels")
mode: str = Field(description="The color mode of the image")
invokeai: Optional[InvokeAIMetadata] = Field(
description="The image's InvokeAI-specific metadata"
)
class MetadataModule:
"""Handles loading metadata from images and parsing it."""
# TODO: Support parsing old format metadata **hurk**
@staticmethod
def _load_metadata(image: Image.Image, key="invokeai") -> Any:
"""Loads a specific info entry from a PIL Image."""
raw_metadata = image.info.get(key)
# metadata should always be a dict
if type(raw_metadata) is not str:
return None
loaded_metadata = json.loads(raw_metadata)
return loaded_metadata
@staticmethod
def _parse_invokeai_metadata(
metadata: Any,
) -> InvokeAIMetadata | None:
"""Parses an object as InvokeAI metadata."""
if type(metadata) is not dict:
return None
parsed_metadata = InvokeAIMetadata.parse_obj(metadata)
return parsed_metadata
@staticmethod
def get_metadata(image: Image.Image) -> InvokeAIMetadata | None:
"""Gets the InvokeAI metadata from a PIL Image, skipping invalid values"""
loaded_metadata = MetadataModule._load_metadata(image)
parsed_metadata = MetadataModule._parse_invokeai_metadata(loaded_metadata)
return parsed_metadata
@staticmethod
def build_metadata(
session_id: StrictStr, invocation: BaseModel
) -> InvokeAIMetadata:
"""Builds an InvokeAIMetadata object"""
metadata = InvokeAIMetadata(
session_id=session_id, node=NodeMetadata(**invocation.dict())
)
return metadata
@staticmethod
def build_png_info(metadata: InvokeAIMetadata | None):
png_info = PngImagePlugin.PngInfo()
if metadata is not None:
png_info.add_text("invokeai", metadata.json())
return png_info

254
invokeai/app/services/board_image_record_storage.py
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@ -1,254 +0,0 @@
from abc import ABC, abstractmethod
import sqlite3
import threading
from typing import Union, cast
from invokeai.app.services.board_record_storage import BoardRecord
from invokeai.app.services.image_record_storage import OffsetPaginatedResults
from invokeai.app.services.models.image_record import (
ImageRecord,
deserialize_image_record,
)
class BoardImageRecordStorageBase(ABC):
"""Abstract base class for the one-to-many board-image relationship record storage."""
@abstractmethod
def add_image_to_board(
self,
board_id: str,
image_name: str,
) -> None:
"""Adds an image to a board."""
pass
@abstractmethod
def remove_image_from_board(
self,
board_id: str,
image_name: str,
) -> None:
"""Removes an image from a board."""
pass
@abstractmethod
def get_images_for_board(
self,
board_id: str,
) -> OffsetPaginatedResults[ImageRecord]:
"""Gets images for a board."""
pass
@abstractmethod
def get_board_for_image(
self,
image_name: str,
) -> Union[str, None]:
"""Gets an image's board id, if it has one."""
pass
@abstractmethod
def get_image_count_for_board(
self,
board_id: str,
) -> int:
"""Gets the number of images for a board."""
pass
class SqliteBoardImageRecordStorage(BoardImageRecordStorageBase):
_filename: str
_conn: sqlite3.Connection
_cursor: sqlite3.Cursor
_lock: threading.Lock
def __init__(self, filename: str) -> None:
super().__init__()
self._filename = filename
self._conn = sqlite3.connect(filename, check_same_thread=False)
# Enable row factory to get rows as dictionaries (must be done before making the cursor!)
self._conn.row_factory = sqlite3.Row
self._cursor = self._conn.cursor()
self._lock = threading.Lock()
try:
self._lock.acquire()
# Enable foreign keys
self._conn.execute("PRAGMA foreign_keys = ON;")
self._create_tables()
self._conn.commit()
finally:
self._lock.release()
def _create_tables(self) -> None:
"""Creates the `board_images` junction table."""
# Create the `board_images` junction table.
self._cursor.execute(
"""--sql
CREATE TABLE IF NOT EXISTS board_images (
board_id TEXT NOT NULL,
image_name TEXT NOT NULL,
created_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- updated via trigger
updated_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- Soft delete, currently unused
deleted_at DATETIME,
-- enforce one-to-many relationship between boards and images using PK
-- (we can extend this to many-to-many later)
PRIMARY KEY (image_name),
FOREIGN KEY (board_id) REFERENCES boards (board_id) ON DELETE CASCADE,
FOREIGN KEY (image_name) REFERENCES images (image_name) ON DELETE CASCADE
);
"""
)
# Add index for board id
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_board_images_board_id ON board_images (board_id);
"""
)
# Add index for board id, sorted by created_at
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_board_images_board_id_created_at ON board_images (board_id, created_at);
"""
)
# Add trigger for `updated_at`.
self._cursor.execute(
"""--sql
CREATE TRIGGER IF NOT EXISTS tg_board_images_updated_at
AFTER UPDATE
ON board_images FOR EACH ROW
BEGIN
UPDATE board_images SET updated_at = STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')
WHERE board_id = old.board_id AND image_name = old.image_name;
END;
"""
)
def add_image_to_board(
self,
board_id: str,
image_name: str,
) -> None:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
INSERT INTO board_images (board_id, image_name)
VALUES (?, ?)
ON CONFLICT (image_name) DO UPDATE SET board_id = ?;
""",
(board_id, image_name, board_id),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
def remove_image_from_board(
self,
board_id: str,
image_name: str,
) -> None:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
DELETE FROM board_images
WHERE board_id = ? AND image_name = ?;
""",
(board_id, image_name),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
def get_images_for_board(
self,
board_id: str,
offset: int = 0,
limit: int = 10,
) -> OffsetPaginatedResults[ImageRecord]:
# TODO: this isn't paginated yet?
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
SELECT images.*
FROM board_images
INNER JOIN images ON board_images.image_name = images.image_name
WHERE board_images.board_id = ?
ORDER BY board_images.updated_at DESC;
""",
(board_id,),
)
result = cast(list[sqlite3.Row], self._cursor.fetchall())
images = list(map(lambda r: deserialize_image_record(dict(r)), result))
self._cursor.execute(
"""--sql
SELECT COUNT(*) FROM images WHERE 1=1;
"""
)
count = cast(int, self._cursor.fetchone()[0])
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
return OffsetPaginatedResults(
items=images, offset=offset, limit=limit, total=count
)
def get_board_for_image(
self,
image_name: str,
) -> Union[str, None]:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
SELECT board_id
FROM board_images
WHERE image_name = ?;
""",
(image_name,),
)
result = self._cursor.fetchone()
if result is None:
return None
return cast(str, result[0])
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
def get_image_count_for_board(self, board_id: str) -> int:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
SELECT COUNT(*) FROM board_images WHERE board_id = ?;
""",
(board_id,),
)
count = cast(int, self._cursor.fetchone()[0])
return count
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()

142
invokeai/app/services/board_images.py
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@ -1,142 +0,0 @@
from abc import ABC, abstractmethod
from logging import Logger
from typing import List, Union
from invokeai.app.services.board_image_record_storage import BoardImageRecordStorageBase
from invokeai.app.services.board_record_storage import (
BoardRecord,
BoardRecordStorageBase,
)
from invokeai.app.services.image_record_storage import (
ImageRecordStorageBase,
OffsetPaginatedResults,
)
from invokeai.app.services.models.board_record import BoardDTO
from invokeai.app.services.models.image_record import ImageDTO, image_record_to_dto
from invokeai.app.services.urls import UrlServiceBase
class BoardImagesServiceABC(ABC):
"""High-level service for board-image relationship management."""
@abstractmethod
def add_image_to_board(
self,
board_id: str,
image_name: str,
) -> None:
"""Adds an image to a board."""
pass
@abstractmethod
def remove_image_from_board(
self,
board_id: str,
image_name: str,
) -> None:
"""Removes an image from a board."""
pass
@abstractmethod
def get_images_for_board(
self,
board_id: str,
) -> OffsetPaginatedResults[ImageDTO]:
"""Gets images for a board."""
pass
@abstractmethod
def get_board_for_image(
self,
image_name: str,
) -> Union[str, None]:
"""Gets an image's board id, if it has one."""
pass
class BoardImagesServiceDependencies:
"""Service dependencies for the BoardImagesService."""
board_image_records: BoardImageRecordStorageBase
board_records: BoardRecordStorageBase
image_records: ImageRecordStorageBase
urls: UrlServiceBase
logger: Logger
def __init__(
self,
board_image_record_storage: BoardImageRecordStorageBase,
image_record_storage: ImageRecordStorageBase,
board_record_storage: BoardRecordStorageBase,
url: UrlServiceBase,
logger: Logger,
):
self.board_image_records = board_image_record_storage
self.image_records = image_record_storage
self.board_records = board_record_storage
self.urls = url
self.logger = logger
class BoardImagesService(BoardImagesServiceABC):
_services: BoardImagesServiceDependencies
def __init__(self, services: BoardImagesServiceDependencies):
self._services = services
def add_image_to_board(
self,
board_id: str,
image_name: str,
) -> None:
self._services.board_image_records.add_image_to_board(board_id, image_name)
def remove_image_from_board(
self,
board_id: str,
image_name: str,
) -> None:
self._services.board_image_records.remove_image_from_board(board_id, image_name)
def get_images_for_board(
self,
board_id: str,
) -> OffsetPaginatedResults[ImageDTO]:
image_records = self._services.board_image_records.get_images_for_board(
board_id
)
image_dtos = list(
map(
lambda r: image_record_to_dto(
r,
self._services.urls.get_image_url(r.image_name),
self._services.urls.get_image_url(r.image_name, True),
board_id,
),
image_records.items,
)
)
return OffsetPaginatedResults[ImageDTO](
items=image_dtos,
offset=image_records.offset,
limit=image_records.limit,
total=image_records.total,
)
def get_board_for_image(
self,
image_name: str,
) -> Union[str, None]:
board_id = self._services.board_image_records.get_board_for_image(image_name)
return board_id
def board_record_to_dto(
board_record: BoardRecord, cover_image_name: str | None, image_count: int
) -> BoardDTO:
"""Converts a board record to a board DTO."""
return BoardDTO(
**board_record.dict(exclude={'cover_image_name'}),
cover_image_name=cover_image_name,
image_count=image_count,
)

329
invokeai/app/services/board_record_storage.py
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@ -1,329 +0,0 @@
from abc import ABC, abstractmethod
from typing import Optional, cast
import sqlite3
import threading
from typing import Optional, Union
import uuid
from invokeai.app.services.image_record_storage import OffsetPaginatedResults
from invokeai.app.services.models.board_record import (
BoardRecord,
deserialize_board_record,
)
from pydantic import BaseModel, Field, Extra
class BoardChanges(BaseModel, extra=Extra.forbid):
board_name: Optional[str] = Field(description="The board's new name.")
cover_image_name: Optional[str] = Field(
description="The name of the board's new cover image."
)
class BoardRecordNotFoundException(Exception):
"""Raised when an board record is not found."""
def __init__(self, message="Board record not found"):
super().__init__(message)
class BoardRecordSaveException(Exception):
"""Raised when an board record cannot be saved."""
def __init__(self, message="Board record not saved"):
super().__init__(message)
class BoardRecordDeleteException(Exception):
"""Raised when an board record cannot be deleted."""
def __init__(self, message="Board record not deleted"):
super().__init__(message)
class BoardRecordStorageBase(ABC):
"""Low-level service responsible for interfacing with the board record store."""
@abstractmethod
def delete(self, board_id: str) -> None:
"""Deletes a board record."""
pass
@abstractmethod
def save(
self,
board_name: str,
) -> BoardRecord:
"""Saves a board record."""
pass
@abstractmethod
def get(
self,
board_id: str,
) -> BoardRecord:
"""Gets a board record."""
pass
@abstractmethod
def update(
self,
board_id: str,
changes: BoardChanges,
) -> BoardRecord:
"""Updates a board record."""
pass
@abstractmethod
def get_many(
self,
offset: int = 0,
limit: int = 10,
) -> OffsetPaginatedResults[BoardRecord]:
"""Gets many board records."""
pass
@abstractmethod
def get_all(
self,
) -> list[BoardRecord]:
"""Gets all board records."""
pass
class SqliteBoardRecordStorage(BoardRecordStorageBase):
_filename: str
_conn: sqlite3.Connection
_cursor: sqlite3.Cursor
_lock: threading.Lock
def __init__(self, filename: str) -> None:
super().__init__()
self._filename = filename
self._conn = sqlite3.connect(filename, check_same_thread=False)
# Enable row factory to get rows as dictionaries (must be done before making the cursor!)
self._conn.row_factory = sqlite3.Row
self._cursor = self._conn.cursor()
self._lock = threading.Lock()
try:
self._lock.acquire()
# Enable foreign keys
self._conn.execute("PRAGMA foreign_keys = ON;")
self._create_tables()
self._conn.commit()
finally:
self._lock.release()
def _create_tables(self) -> None:
"""Creates the `boards` table and `board_images` junction table."""
# Create the `boards` table.
self._cursor.execute(
"""--sql
CREATE TABLE IF NOT EXISTS boards (
board_id TEXT NOT NULL PRIMARY KEY,
board_name TEXT NOT NULL,
cover_image_name TEXT,
created_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- Updated via trigger
updated_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- Soft delete, currently unused
deleted_at DATETIME,
FOREIGN KEY (cover_image_name) REFERENCES images (image_name) ON DELETE SET NULL
);
"""
)
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_boards_created_at ON boards (created_at);
"""
)
# Add trigger for `updated_at`.
self._cursor.execute(
"""--sql
CREATE TRIGGER IF NOT EXISTS tg_boards_updated_at
AFTER UPDATE
ON boards FOR EACH ROW
BEGIN
UPDATE boards SET updated_at = current_timestamp
WHERE board_id = old.board_id;
END;
"""
)
def delete(self, board_id: str) -> None:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
DELETE FROM boards
WHERE board_id = ?;
""",
(board_id,),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise BoardRecordDeleteException from e
except Exception as e:
self._conn.rollback()
raise BoardRecordDeleteException from e
finally:
self._lock.release()
def save(
self,
board_name: str,
) -> BoardRecord:
try:
board_id = str(uuid.uuid4())
self._lock.acquire()
self._cursor.execute(
"""--sql
INSERT OR IGNORE INTO boards (board_id, board_name)
VALUES (?, ?);
""",
(board_id, board_name),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise BoardRecordSaveException from e
finally:
self._lock.release()
return self.get(board_id)
def get(
self,
board_id: str,
) -> BoardRecord:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
SELECT *
FROM boards
WHERE board_id = ?;
""",
(board_id,),
)
result = cast(Union[sqlite3.Row, None], self._cursor.fetchone())
except sqlite3.Error as e:
self._conn.rollback()
raise BoardRecordNotFoundException from e
finally:
self._lock.release()
if result is None:
raise BoardRecordNotFoundException
return BoardRecord(**dict(result))
def update(
self,
board_id: str,
changes: BoardChanges,
) -> BoardRecord:
try:
self._lock.acquire()
# Change the name of a board
if changes.board_name is not None:
self._cursor.execute(
f"""--sql
UPDATE boards
SET board_name = ?
WHERE board_id = ?;
""",
(changes.board_name, board_id),
)
# Change the cover image of a board
if changes.cover_image_name is not None:
self._cursor.execute(
f"""--sql
UPDATE boards
SET cover_image_name = ?
WHERE board_id = ?;
""",
(changes.cover_image_name, board_id),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise BoardRecordSaveException from e
finally:
self._lock.release()
return self.get(board_id)
def get_many(
self,
offset: int = 0,
limit: int = 10,
) -> OffsetPaginatedResults[BoardRecord]:
try:
self._lock.acquire()
# Get all the boards
self._cursor.execute(
"""--sql
SELECT *
FROM boards
ORDER BY created_at DESC
LIMIT ? OFFSET ?;
""",
(limit, offset),
)
result = cast(list[sqlite3.Row], self._cursor.fetchall())
boards = list(map(lambda r: deserialize_board_record(dict(r)), result))
# Get the total number of boards
self._cursor.execute(
"""--sql
SELECT COUNT(*)
FROM boards
WHERE 1=1;
"""
)
count = cast(int, self._cursor.fetchone()[0])
return OffsetPaginatedResults[BoardRecord](
items=boards, offset=offset, limit=limit, total=count
)
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
def get_all(
self,
) -> list[BoardRecord]:
try:
self._lock.acquire()
# Get all the boards
self._cursor.execute(
"""--sql
SELECT *
FROM boards
ORDER BY created_at DESC
"""
)
result = cast(list[sqlite3.Row], self._cursor.fetchall())
boards = list(map(lambda r: deserialize_board_record(dict(r)), result))
return boards
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()

185
invokeai/app/services/boards.py
View File

@ -1,185 +0,0 @@
from abc import ABC, abstractmethod
from logging import Logger
from invokeai.app.services.board_image_record_storage import BoardImageRecordStorageBase
from invokeai.app.services.board_images import board_record_to_dto
from invokeai.app.services.board_record_storage import (
BoardChanges,
BoardRecordStorageBase,
)
from invokeai.app.services.image_record_storage import (
ImageRecordStorageBase,
OffsetPaginatedResults,
)
from invokeai.app.services.models.board_record import BoardDTO
from invokeai.app.services.urls import UrlServiceBase
class BoardServiceABC(ABC):
"""High-level service for board management."""
@abstractmethod
def create(
self,
board_name: str,
) -> BoardDTO:
"""Creates a board."""
pass
@abstractmethod
def get_dto(
self,
board_id: str,
) -> BoardDTO:
"""Gets a board."""
pass
@abstractmethod
def update(
self,
board_id: str,
changes: BoardChanges,
) -> BoardDTO:
"""Updates a board."""
pass
@abstractmethod
def delete(
self,
board_id: str,
) -> None:
"""Deletes a board."""
pass
@abstractmethod
def get_many(
self,
offset: int = 0,
limit: int = 10,
) -> OffsetPaginatedResults[BoardDTO]:
"""Gets many boards."""
pass
@abstractmethod
def get_all(
self,
) -> list[BoardDTO]:
"""Gets all boards."""
pass
class BoardServiceDependencies:
"""Service dependencies for the BoardService."""
board_image_records: BoardImageRecordStorageBase
board_records: BoardRecordStorageBase
image_records: ImageRecordStorageBase
urls: UrlServiceBase
logger: Logger
def __init__(
self,
board_image_record_storage: BoardImageRecordStorageBase,
image_record_storage: ImageRecordStorageBase,
board_record_storage: BoardRecordStorageBase,
url: UrlServiceBase,
logger: Logger,
):
self.board_image_records = board_image_record_storage
self.image_records = image_record_storage
self.board_records = board_record_storage
self.urls = url
self.logger = logger
class BoardService(BoardServiceABC):
_services: BoardServiceDependencies
def __init__(self, services: BoardServiceDependencies):
self._services = services
def create(
self,
board_name: str,
) -> BoardDTO:
board_record = self._services.board_records.save(board_name)
return board_record_to_dto(board_record, None, 0)
def get_dto(self, board_id: str) -> BoardDTO:
board_record = self._services.board_records.get(board_id)
cover_image = self._services.image_records.get_most_recent_image_for_board(
board_record.board_id
)
if cover_image:
cover_image_name = cover_image.image_name
else:
cover_image_name = None
image_count = self._services.board_image_records.get_image_count_for_board(
board_id
)
return board_record_to_dto(board_record, cover_image_name, image_count)
def update(
self,
board_id: str,
changes: BoardChanges,
) -> BoardDTO:
board_record = self._services.board_records.update(board_id, changes)
cover_image = self._services.image_records.get_most_recent_image_for_board(
board_record.board_id
)
if cover_image:
cover_image_name = cover_image.image_name
else:
cover_image_name = None
image_count = self._services.board_image_records.get_image_count_for_board(
board_id
)
return board_record_to_dto(board_record, cover_image_name, image_count)
def delete(self, board_id: str) -> None:
self._services.board_records.delete(board_id)
def get_many(
self, offset: int = 0, limit: int = 10
) -> OffsetPaginatedResults[BoardDTO]:
board_records = self._services.board_records.get_many(offset, limit)
board_dtos = []
for r in board_records.items:
cover_image = self._services.image_records.get_most_recent_image_for_board(
r.board_id
)
if cover_image:
cover_image_name = cover_image.image_name
else:
cover_image_name = None
image_count = self._services.board_image_records.get_image_count_for_board(
r.board_id
)
board_dtos.append(board_record_to_dto(r, cover_image_name, image_count))
return OffsetPaginatedResults[BoardDTO](
items=board_dtos, offset=offset, limit=limit, total=len(board_dtos)
)
def get_all(self) -> list[BoardDTO]:
board_records = self._services.board_records.get_all()
board_dtos = []
for r in board_records:
cover_image = self._services.image_records.get_most_recent_image_for_board(
r.board_id
)
if cover_image:
cover_image_name = cover_image.image_name
else:
cover_image_name = None
image_count = self._services.board_image_records.get_image_count_for_board(
r.board_id
)
board_dtos.append(board_record_to_dto(r, cover_image_name, image_count))
return board_dtos

542
invokeai/app/services/config.py
View File

@ -1,542 +0,0 @@
# Copyright (c) 2023 Lincoln Stein (https://github.com/lstein) and the InvokeAI Development Team
'''Invokeai configuration system.
Arguments and fields are taken from the pydantic definition of the
model. Defaults can be set by creating a yaml configuration file that
has a top-level key of "InvokeAI" and subheadings for each of the
categories returned by `invokeai --help`. The file looks like this:
[file: invokeai.yaml]
InvokeAI:
Paths:
root: /home/lstein/invokeai-main
conf_path: configs/models.yaml
legacy_conf_dir: configs/stable-diffusion
outdir: outputs
autoimport_dir: null
Models:
model: stable-diffusion-1.5
embeddings: true
Memory/Performance:
xformers_enabled: false
sequential_guidance: false
precision: float16
max_loaded_models: 4
always_use_cpu: false
free_gpu_mem: false
Features:
nsfw_checker: true
restore: true
esrgan: true
patchmatch: true
internet_available: true
log_tokenization: false
Web Server:
host: 127.0.0.1
port: 8081
allow_origins: []
allow_credentials: true
allow_methods:
- '*'
allow_headers:
- '*'
The default name of the configuration file is `invokeai.yaml`, located
in INVOKEAI_ROOT. You can replace supersede this by providing any
OmegaConf dictionary object initialization time:
omegaconf = OmegaConf.load('/tmp/init.yaml')
conf = InvokeAIAppConfig()
conf.parse_args(conf=omegaconf)
InvokeAIAppConfig.parse_args() will parse the contents of `sys.argv`
at initialization time. You may pass a list of strings in the optional
`argv` argument to use instead of the system argv:
conf.parse_args(argv=['--xformers_enabled'])
It is also possible to set a value at initialization time. However, if
you call parse_args() it may be overwritten.
conf = InvokeAIAppConfig(xformers_enabled=True)
conf.parse_args(argv=['--no-xformers'])
conf.xformers_enabled
# False
To avoid this, use `get_config()` to retrieve the application-wide
configuration object. This will retain any properties set at object
creation time:
conf = InvokeAIAppConfig.get_config(xformers_enabled=True)
conf.parse_args(argv=['--no-xformers'])
conf.xformers_enabled
# True
Any setting can be overwritten by setting an environment variable of
form: "INVOKEAI_<setting>", as in:
export INVOKEAI_port=8080
Order of precedence (from highest):
1) initialization options
2) command line options
3) environment variable options
4) config file options
5) pydantic defaults
Typical usage at the top level file:
from invokeai.app.services.config import InvokeAIAppConfig
# get global configuration and print its nsfw_checker value
conf = InvokeAIAppConfig.get_config()
conf.parse_args()
print(conf.nsfw_checker)
Typical usage in a backend module:
from invokeai.app.services.config import InvokeAIAppConfig
# get global configuration and print its nsfw_checker value
conf = InvokeAIAppConfig.get_config()
print(conf.nsfw_checker)
Computed properties:
The InvokeAIAppConfig object has a series of properties that
resolve paths relative to the runtime root directory. They each return
a Path object:
root_path - path to InvokeAI root
output_path - path to default outputs directory
model_conf_path - path to models.yaml
conf - alias for the above
embedding_path - path to the embeddings directory
lora_path - path to the LoRA directory
In most cases, you will want to create a single InvokeAIAppConfig
object for the entire application. The InvokeAIAppConfig.get_config() function
does this:
config = InvokeAIAppConfig.get_config()
config.parse_args() # read values from the command line/config file
print(config.root)
# Subclassing
If you wish to create a similar class, please subclass the
`InvokeAISettings` class and define a Literal field named "type",
which is set to the desired top-level name. For example, to create a
"InvokeBatch" configuration, define like this:
class InvokeBatch(InvokeAISettings):
type: Literal["InvokeBatch"] = "InvokeBatch"
node_count : int = Field(default=1, description="Number of nodes to run on", category='Resources')
cpu_count : int = Field(default=8, description="Number of GPUs to run on per node", category='Resources')
This will now read and write from the "InvokeBatch" section of the
config file, look for environment variables named INVOKEBATCH_*, and
accept the command-line arguments `--node_count` and `--cpu_count`. The
two configs are kept in separate sections of the config file:
# invokeai.yaml
InvokeBatch:
Resources:
node_count: 1
cpu_count: 8
InvokeAI:
Paths:
root: /home/lstein/invokeai-main
conf_path: configs/models.yaml
legacy_conf_dir: configs/stable-diffusion
outdir: outputs
...
'''
from __future__ import annotations
import argparse
import pydoc
import os
import sys
from argparse import ArgumentParser
from omegaconf import OmegaConf, DictConfig
from pathlib import Path
from pydantic import BaseSettings, Field, parse_obj_as
from typing import ClassVar, Dict, List, Literal, Union, get_origin, get_type_hints, get_args
INIT_FILE = Path('invokeai.yaml')
DB_FILE = Path('invokeai.db')
LEGACY_INIT_FILE = Path('invokeai.init')
class InvokeAISettings(BaseSettings):
'''
Runtime configuration settings in which default values are
read from an omegaconf .yaml file.
'''
initconf : ClassVar[DictConfig] = None
argparse_groups : ClassVar[Dict] = {}
def parse_args(self, argv: list=sys.argv[1:]):
parser = self.get_parser()
opt = parser.parse_args(argv)
for name in self.__fields__:
if name not in self._excluded():
setattr(self, name, getattr(opt,name))
def to_yaml(self)->str:
"""
Return a YAML string representing our settings. This can be used
as the contents of `invokeai.yaml` to restore settings later.
"""
cls = self.__class__
type = get_args(get_type_hints(cls)['type'])[0]
field_dict = dict({type:dict()})
for name,field in self.__fields__.items():
if name in cls._excluded():
continue
category = field.field_info.extra.get("category") or "Uncategorized"
value = getattr(self,name)
if category not in field_dict[type]:
field_dict[type][category] = dict()
# keep paths as strings to make it easier to read
field_dict[type][category][name] = str(value) if isinstance(value,Path) else value
conf = OmegaConf.create(field_dict)
return OmegaConf.to_yaml(conf)
@classmethod
def add_parser_arguments(cls, parser):
if 'type' in get_type_hints(cls):
settings_stanza = get_args(get_type_hints(cls)['type'])[0]
else:
settings_stanza = "Uncategorized"
env_prefix = cls.Config.env_prefix if hasattr(cls.Config,'env_prefix') else settings_stanza.upper()
initconf = cls.initconf.get(settings_stanza) \
if cls.initconf and settings_stanza in cls.initconf \
else OmegaConf.create()
# create an upcase version of the environment in
# order to achieve case-insensitive environment
# variables (the way Windows does)
upcase_environ = dict()
for key,value in os.environ.items():
upcase_environ[key.upper()] = value
fields = cls.__fields__
cls.argparse_groups = {}
for name, field in fields.items():
if name not in cls._excluded():
current_default = field.default
category = field.field_info.extra.get("category","Uncategorized")
env_name = env_prefix + '_' + name
if category in initconf and name in initconf.get(category):
field.default = initconf.get(category).get(name)
if env_name.upper() in upcase_environ:
field.default = upcase_environ[env_name.upper()]
cls.add_field_argument(parser, name, field)
field.default = current_default
@classmethod
def cmd_name(self, command_field: str='type')->str:
hints = get_type_hints(self)
if command_field in hints:
return get_args(hints[command_field])[0]
else:
return 'Uncategorized'
@classmethod
def get_parser(cls)->ArgumentParser:
parser = PagingArgumentParser(
prog=cls.cmd_name(),
description=cls.__doc__,
)
cls.add_parser_arguments(parser)
return parser
@classmethod
def add_subparser(cls, parser: argparse.ArgumentParser):
parser.add_parser(cls.cmd_name(), help=cls.__doc__)
@classmethod
def _excluded(self)->List[str]:
return ['type','initconf']
class Config:
env_file_encoding = 'utf-8'
arbitrary_types_allowed = True
case_sensitive = True
@classmethod
def add_field_argument(cls, command_parser, name: str, field, default_override = None):
field_type = get_type_hints(cls).get(name)
default = default_override if default_override is not None else field.default if field.default_factory is None else field.default_factory()
if category := field.field_info.extra.get("category"):
if category not in cls.argparse_groups:
cls.argparse_groups[category] = command_parser.add_argument_group(category)
argparse_group = cls.argparse_groups[category]
else:
argparse_group = command_parser
if get_origin(field_type) == Literal:
allowed_values = get_args(field.type_)
allowed_types = set()
for val in allowed_values:
allowed_types.add(type(val))
allowed_types_list = list(allowed_types)
field_type = allowed_types_list[0] if len(allowed_types) == 1 else Union[allowed_types_list] # type: ignore
argparse_group.add_argument(
f"--{name}",
dest=name,
type=field_type,
default=default,
choices=allowed_values,
help=field.field_info.description,
)
elif get_origin(field_type) == list:
argparse_group.add_argument(
f"--{name}",
dest=name,
nargs='*',
type=field.type_,
default=default,
action=argparse.BooleanOptionalAction if field.type_==bool else 'store',
help=field.field_info.description,
)
else:
argparse_group.add_argument(
f"--{name}",
dest=name,
type=field.type_,
default=default,
action=argparse.BooleanOptionalAction if field.type_==bool else 'store',
help=field.field_info.description,
)
def _find_root()->Path:
if os.environ.get("INVOKEAI_ROOT"):
root = Path(os.environ.get("INVOKEAI_ROOT")).resolve()
elif (
os.environ.get("VIRTUAL_ENV")
and (Path(os.environ.get("VIRTUAL_ENV"), "..", INIT_FILE).exists()
or
Path(os.environ.get("VIRTUAL_ENV"), "..", LEGACY_INIT_FILE).exists()
)
):
root = Path(os.environ.get("VIRTUAL_ENV"), "..").resolve()
else:
root = Path("~/invokeai").expanduser().resolve()
return root
class InvokeAIAppConfig(InvokeAISettings):
'''
Generate images using Stable Diffusion. Use "invokeai" to launch
the command-line client (recommended for experts only), or
"invokeai-web" to launch the web server. Global options
can be changed by editing the file "INVOKEAI_ROOT/invokeai.yaml" or by
setting environment variables INVOKEAI_<setting>.
'''
singleton_config: ClassVar[InvokeAIAppConfig] = None
singleton_init: ClassVar[Dict] = None
#fmt: off
type: Literal["InvokeAI"] = "InvokeAI"
host : str = Field(default="127.0.0.1", description="IP address to bind to", category='Web Server')
port : int = Field(default=9090, description="Port to bind to", category='Web Server')
allow_origins : List[str] = Field(default=[], description="Allowed CORS origins", category='Web Server')
allow_credentials : bool = Field(default=True, description="Allow CORS credentials", category='Web Server')
allow_methods : List[str] = Field(default=["*"], description="Methods allowed for CORS", category='Web Server')
allow_headers : List[str] = Field(default=["*"], description="Headers allowed for CORS", category='Web Server')
esrgan : bool = Field(default=True, description="Enable/disable upscaling code", category='Features')
internet_available : bool = Field(default=True, description="If true, attempt to download models on the fly; otherwise only use local models", category='Features')
log_tokenization : bool = Field(default=False, description="Enable logging of parsed prompt tokens.", category='Features')
nsfw_checker : bool = Field(default=True, description="Enable/disable the NSFW checker", category='Features')
patchmatch : bool = Field(default=True, description="Enable/disable patchmatch inpaint code", category='Features')
restore : bool = Field(default=True, description="Enable/disable face restoration code", category='Features')
always_use_cpu : bool = Field(default=False, description="If true, use the CPU for rendering even if a GPU is available.", category='Memory/Performance')
free_gpu_mem : bool = Field(default=False, description="If true, purge model from GPU after each generation.", category='Memory/Performance')
max_loaded_models : int = Field(default=3, gt=0, description="Maximum number of models to keep in memory for rapid switching", category='Memory/Performance')
precision : Literal[tuple(['auto','float16','float32','autocast'])] = Field(default='float16',description='Floating point precision', category='Memory/Performance')
sequential_guidance : bool = Field(default=False, description="Whether to calculate guidance in serial instead of in parallel, lowering memory requirements", category='Memory/Performance')
xformers_enabled : bool = Field(default=True, description="Enable/disable memory-efficient attention", category='Memory/Performance')
tiled_decode : bool = Field(default=False, description="Whether to enable tiled VAE decode (reduces memory consumption with some performance penalty)", category='Memory/Performance')
root : Path = Field(default=_find_root(), description='InvokeAI runtime root directory', category='Paths')
autoimport_dir : Path = Field(default='autoimport/main', description='Path to a directory of models files to be imported on startup.', category='Paths')
lora_dir : Path = Field(default='autoimport/lora', description='Path to a directory of LoRA/LyCORIS models to be imported on startup.', category='Paths')
embedding_dir : Path = Field(default='autoimport/embedding', description='Path to a directory of Textual Inversion embeddings to be imported on startup.', category='Paths')
controlnet_dir : Path = Field(default='autoimport/controlnet', description='Path to a directory of ControlNet embeddings to be imported on startup.', category='Paths')
conf_path : Path = Field(default='configs/models.yaml', description='Path to models definition file', category='Paths')
models_dir : Path = Field(default='models', description='Path to the models directory', category='Paths')
legacy_conf_dir : Path = Field(default='configs/stable-diffusion', description='Path to directory of legacy checkpoint config files', category='Paths')
db_dir : Path = Field(default='databases', description='Path to InvokeAI databases directory', category='Paths')
outdir : Path = Field(default='outputs', description='Default folder for output images', category='Paths')
from_file : Path = Field(default=None, description='Take command input from the indicated file (command-line client only)', category='Paths')
use_memory_db : bool = Field(default=False, description='Use in-memory database for storing image metadata', category='Paths')
model : str = Field(default='stable-diffusion-1.5', description='Initial model name', category='Models')
log_handlers : List[str] = Field(default=["console"], description='Log handler. Valid options are "console", "file=<path>", "syslog=path|address:host:port", "http=<url>"', category="Logging")
# note - would be better to read the log_format values from logging.py, but this creates circular dependencies issues
log_format : Literal[tuple(['plain','color','syslog','legacy'])] = Field(default="color", description='Log format. Use "plain" for text-only, "color" for colorized output, "legacy" for 2.3-style logging and "syslog" for syslog-style', category="Logging")
log_level : Literal[tuple(["debug","info","warning","error","critical"])] = Field(default="debug", description="Emit logging messages at this level or higher", category="Logging")
#fmt: on
def parse_args(self, argv: List[str]=None, conf: DictConfig = None, clobber=False):
'''
Update settings with contents of init file, environment, and
command-line settings.
:param conf: alternate Omegaconf dictionary object
:param argv: aternate sys.argv list
:param clobber: ovewrite any initialization parameters passed during initialization
'''
# Set the runtime root directory. We parse command-line switches here
# in order to pick up the --root_dir option.
super().parse_args(argv)
if conf is None:
try:
conf = OmegaConf.load(self.root_dir / INIT_FILE)
except:
pass
InvokeAISettings.initconf = conf
# parse args again in order to pick up settings in configuration file
super().parse_args(argv)
if self.singleton_init and not clobber:
hints = get_type_hints(self.__class__)
for k in self.singleton_init:
setattr(self,k,parse_obj_as(hints[k],self.singleton_init[k]))
@classmethod
def get_config(cls,**kwargs)->InvokeAIAppConfig:
'''
This returns a singleton InvokeAIAppConfig configuration object.
'''
if cls.singleton_config is None \
or type(cls.singleton_config)!=cls \
or (kwargs and cls.singleton_init != kwargs):
cls.singleton_config = cls(**kwargs)
cls.singleton_init = kwargs
return cls.singleton_config
@property
def root_path(self)->Path:
'''
Path to the runtime root directory
'''
if self.root:
return Path(self.root).expanduser()
else:
return self.find_root()
@property
def root_dir(self)->Path:
'''
Alias for above.
'''
return self.root_path
def _resolve(self,partial_path:Path)->Path:
return (self.root_path / partial_path).resolve()
@property
def init_file_path(self)->Path:
'''
Path to invokeai.yaml
'''
return self._resolve(INIT_FILE)
@property
def output_path(self)->Path:
'''
Path to defaults outputs directory.
'''
return self._resolve(self.outdir)
@property
def db_path(self)->Path:
'''
Path to the invokeai.db file.
'''
return self._resolve(self.db_dir) / DB_FILE
@property
def model_conf_path(self)->Path:
'''
Path to models configuration file.
'''
return self._resolve(self.conf_path)
@property
def legacy_conf_path(self)->Path:
'''
Path to directory of legacy configuration files (e.g. v1-inference.yaml)
'''
return self._resolve(self.legacy_conf_dir)
@property
def models_path(self)->Path:
'''
Path to the models directory
'''
return self._resolve(self.models_dir)
@property
def autoconvert_path(self)->Path:
'''
Path to the directory containing models to be imported automatically at startup.
'''
return self._resolve(self.autoconvert_dir) if self.autoconvert_dir else None
# the following methods support legacy calls leftover from the Globals era
@property
def full_precision(self)->bool:
"""Return true if precision set to float32"""
return self.precision=='float32'
@property
def disable_xformers(self)->bool:
"""Return true if xformers_enabled is false"""
return not self.xformers_enabled
@property
def try_patchmatch(self)->bool:
"""Return true if patchmatch true"""
return self.patchmatch
@staticmethod
def find_root()->Path:
'''
Choose the runtime root directory when not specified on command line or
init file.
'''
return _find_root()
class PagingArgumentParser(argparse.ArgumentParser):
'''
A custom ArgumentParser that uses pydoc to page its output.
It also supports reading defaults from an init file.
'''
def print_help(self, file=None):
text = self.format_help()
pydoc.pager(text)
def get_invokeai_config(**kwargs)->InvokeAIAppConfig:
'''
Legacy function which returns InvokeAIAppConfig.get_config()
'''
return InvokeAIAppConfig.get_config(**kwargs)

37
invokeai/app/services/default_graphs.py
View File

@ -1,6 +1,4 @@
from ..invocations.latent import LatentsToImageInvocation, TextToLatentsInvocation
from ..invocations.noise import NoiseInvocation
from ..invocations.compel import CompelInvocation
from ..invocations.latent import LatentsToImageInvocation, NoiseInvocation, TextToLatentsInvocation
from ..invocations.params import ParamIntInvocation
from .graph import Edge, EdgeConnection, ExposedNodeInput, ExposedNodeOutput, Graph, LibraryGraph
from .item_storage import ItemStorageABC
@ -18,45 +16,38 @@ def create_text_to_image() -> LibraryGraph:
nodes={
'width': ParamIntInvocation(id='width', a=512),
'height': ParamIntInvocation(id='height', a=512),
'seed': ParamIntInvocation(id='seed', a=-1),
'3': NoiseInvocation(id='3'),
'4': CompelInvocation(id='4'),
'5': CompelInvocation(id='5'),
'6': TextToLatentsInvocation(id='6'),
'7': LatentsToImageInvocation(id='7'),
'4': TextToLatentsInvocation(id='4'),
'5': LatentsToImageInvocation(id='5')
},
edges=[
Edge(source=EdgeConnection(node_id='width', field='a'), destination=EdgeConnection(node_id='3', field='width')),
Edge(source=EdgeConnection(node_id='height', field='a'), destination=EdgeConnection(node_id='3', field='height')),
Edge(source=EdgeConnection(node_id='seed', field='a'), destination=EdgeConnection(node_id='3', field='seed')),
Edge(source=EdgeConnection(node_id='3', field='noise'), destination=EdgeConnection(node_id='6', field='noise')),
Edge(source=EdgeConnection(node_id='6', field='latents'), destination=EdgeConnection(node_id='7', field='latents')),
Edge(source=EdgeConnection(node_id='4', field='conditioning'), destination=EdgeConnection(node_id='6', field='positive_conditioning')),
Edge(source=EdgeConnection(node_id='5', field='conditioning'), destination=EdgeConnection(node_id='6', field='negative_conditioning')),
Edge(source=EdgeConnection(node_id='width', field='a'), destination=EdgeConnection(node_id='4', field='width')),
Edge(source=EdgeConnection(node_id='height', field='a'), destination=EdgeConnection(node_id='4', field='height')),
Edge(source=EdgeConnection(node_id='3', field='noise'), destination=EdgeConnection(node_id='4', field='noise')),
Edge(source=EdgeConnection(node_id='4', field='latents'), destination=EdgeConnection(node_id='5', field='latents')),
]
),
exposed_inputs=[
ExposedNodeInput(node_path='4', field='prompt', alias='positive_prompt'),
ExposedNodeInput(node_path='5', field='prompt', alias='negative_prompt'),
ExposedNodeInput(node_path='4', field='prompt', alias='prompt'),
ExposedNodeInput(node_path='width', field='a', alias='width'),
ExposedNodeInput(node_path='height', field='a', alias='height'),
ExposedNodeInput(node_path='seed', field='a', alias='seed'),
ExposedNodeInput(node_path='height', field='a', alias='height')
],
exposed_outputs=[
ExposedNodeOutput(node_path='7', field='image', alias='image')
ExposedNodeOutput(node_path='5', field='image', alias='image')
])
def create_system_graphs(graph_library: ItemStorageABC[LibraryGraph]) -> list[LibraryGraph]:
"""Creates the default system graphs, or adds new versions if the old ones don't match"""
# TODO: Uncomment this when we are ready to fix this up to prevent breaking changes
graphs: list[LibraryGraph] = list()
# text_to_image = graph_library.get(default_text_to_image_graph_id)
text_to_image = graph_library.get(default_text_to_image_graph_id)
# # TODO: Check if the graph is the same as the default one, and if not, update it
# #if text_to_image is None:
# TODO: Check if the graph is the same as the default one, and if not, update it
#if text_to_image is None:
text_to_image = create_text_to_image()
graph_library.set(text_to_image)

80
invokeai/app/services/events.py
View File

@ -1,10 +1,9 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
from typing import Any
from invokeai.app.models.image import ProgressImage
from invokeai.app.util.misc import get_timestamp
from invokeai.app.services.model_manager_service import BaseModelType, ModelType, SubModelType, ModelInfo
from invokeai.app.models.exceptions import CanceledException
from invokeai.app.api.models.images import ProgressImage
from invokeai.app.util.get_timestamp import get_timestamp
class EventServiceBase:
session_event: str = "session_event"
@ -15,7 +14,6 @@ class EventServiceBase:
pass
def __emit_session_event(self, event_name: str, payload: dict) -> None:
payload["timestamp"] = get_timestamp()
self.dispatch(
event_name=EventServiceBase.session_event,
payload=dict(event=event_name, data=payload),
@ -26,7 +24,7 @@ class EventServiceBase:
def emit_generator_progress(
self,
graph_execution_state_id: str,
node: dict,
invocation_dict: dict,
source_node_id: str,
progress_image: ProgressImage | None,
step: int,
@ -37,11 +35,12 @@ class EventServiceBase:
event_name="generator_progress",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
invocation=invocation_dict,
source_node_id=source_node_id,
progress_image=progress_image.dict() if progress_image is not None else None,
step=step,
total_steps=total_steps,
timestamp=get_timestamp(),
),
)
@ -49,24 +48,26 @@ class EventServiceBase:
self,
graph_execution_state_id: str,
result: dict,
node: dict,
invocation_dict: dict,
source_node_id: str,
) -> None:
"""Emitted when an invocation has completed"""
print(result)
self.__emit_session_event(
event_name="invocation_complete",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
invocation=invocation_dict,
source_node_id=source_node_id,
result=result,
timestamp=get_timestamp(),
),
)
def emit_invocation_error(
self,
graph_execution_state_id: str,
node: dict,
invocation_dict: dict,
source_node_id: str,
error: str,
) -> None:
@ -75,22 +76,24 @@ class EventServiceBase:
event_name="invocation_error",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
invocation=invocation_dict,
source_node_id=source_node_id,
error=error,
timestamp=get_timestamp(),
),
)
def emit_invocation_started(
self, graph_execution_state_id: str, node: dict, source_node_id: str
self, graph_execution_state_id: str, invocation_dict: dict, source_node_id: str
) -> None:
"""Emitted when an invocation has started"""
self.__emit_session_event(
event_name="invocation_started",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
invocation=invocation_dict,
source_node_id=source_node_id,
timestamp=get_timestamp(),
),
)
@ -100,55 +103,6 @@ class EventServiceBase:
event_name="graph_execution_state_complete",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
),
)
def emit_model_load_started (
self,
graph_execution_state_id: str,
node: dict,
source_node_id: str,
model_name: str,
base_model: BaseModelType,
model_type: ModelType,
submodel: SubModelType,
) -> None:
"""Emitted when a model is requested"""
self.__emit_session_event(
event_name="model_load_started",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
source_node_id=source_node_id,
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=submodel,
),
)
def emit_model_load_completed(
self,
graph_execution_state_id: str,
node: dict,
source_node_id: str,
model_name: str,
base_model: BaseModelType,
model_type: ModelType,
submodel: SubModelType,
model_info: ModelInfo,
) -> None:
"""Emitted when a model is correctly loaded (returns model info)"""
self.__emit_session_event(
event_name="model_load_completed",
payload=dict(
graph_execution_state_id=graph_execution_state_id,
node=node,
source_node_id=source_node_id,
model_name=model_name,
base_model=base_model,
model_type=model_type,
submodel=submodel,
model_info=model_info,
timestamp=get_timestamp(),
),
)

104
invokeai/app/services/graph.py
View File

@ -60,33 +60,6 @@ def get_input_field(node: BaseInvocation, field: str) -> Any:
node_input_field = node_inputs.get(field) or None
return node_input_field
from typing import Optional, Union, List, get_args
def is_union_subtype(t1, t2):
t1_args = get_args(t1)
t2_args = get_args(t2)
if not t1_args:
# t1 is a single type
return t1 in t2_args
else:
# t1 is a Union, check that all of its types are in t2_args
return all(arg in t2_args for arg in t1_args)
def is_list_or_contains_list(t):
t_args = get_args(t)
# If the type is a List
if get_origin(t) is list:
return True
# If the type is a Union
elif t_args:
# Check if any of the types in the Union is a List
for arg in t_args:
if get_origin(arg) is list:
return True
return False
def are_connection_types_compatible(from_type: Any, to_type: Any) -> bool:
if not from_type:
@ -112,8 +85,7 @@ def are_connection_types_compatible(from_type: Any, to_type: Any) -> bool:
if to_type in get_args(from_type):
return True
# if not issubclass(from_type, to_type):
if not is_union_subtype(from_type, to_type):
if not issubclass(from_type, to_type):
return False
else:
return False
@ -163,7 +135,6 @@ class GraphInvocationOutput(BaseInvocationOutput):
# TODO: Fill this out and move to invocations
class GraphInvocation(BaseInvocation):
"""Execute a graph"""
type: Literal["graph"] = "graph"
# TODO: figure out how to create a default here
@ -191,7 +162,6 @@ class IterateInvocationOutput(BaseInvocationOutput):
# TODO: Fill this out and move to invocations
class IterateInvocation(BaseInvocation):
"""Iterates over a list of items"""
type: Literal["iterate"] = "iterate"
collection: list[Any] = Field(
@ -391,7 +361,7 @@ class Graph(BaseModel):
from_node = self.get_node(edge.source.node_id)
to_node = self.get_node(edge.destination.node_id)
except NodeNotFoundError:
raise InvalidEdgeError("One or both nodes don't exist: {edge.source.node_id} -> {edge.destination.node_id}")
raise InvalidEdgeError("One or both nodes don't exist")
# Validate that an edge to this node+field doesn't already exist
input_edges = self._get_input_edges(edge.destination.node_id, edge.destination.field)
@ -402,41 +372,41 @@ class Graph(BaseModel):
g = self.nx_graph_flat()
g.add_edge(edge.source.node_id, edge.destination.node_id)
if not nx.is_directed_acyclic_graph(g):
raise InvalidEdgeError(f'Edge creates a cycle in the graph: {edge.source.node_id} -> {edge.destination.node_id}')
raise InvalidEdgeError(f'Edge creates a cycle in the graph')
# Validate that the field types are compatible
if not are_connections_compatible(
from_node, edge.source.field, to_node, edge.destination.field
):
raise InvalidEdgeError(f'Fields are incompatible: cannot connect {edge.source.node_id}.{edge.source.field} to {edge.destination.node_id}.{edge.destination.field}')
raise InvalidEdgeError(f'Fields are incompatible')
# Validate if iterator output type matches iterator input type (if this edge results in both being set)
if isinstance(to_node, IterateInvocation) and edge.destination.field == "collection":
if not self._is_iterator_connection_valid(
edge.destination.node_id, new_input=edge.source
):
raise InvalidEdgeError(f'Iterator input type does not match iterator output type: {edge.source.node_id}.{edge.source.field} to {edge.destination.node_id}.{edge.destination.field}')
raise InvalidEdgeError(f'Iterator input type does not match iterator output type')
# Validate if iterator input type matches output type (if this edge results in both being set)
if isinstance(from_node, IterateInvocation) and edge.source.field == "item":
if not self._is_iterator_connection_valid(
edge.source.node_id, new_output=edge.destination
):
raise InvalidEdgeError(f'Iterator output type does not match iterator input type:, {edge.source.node_id}.{edge.source.field} to {edge.destination.node_id}.{edge.destination.field}')
raise InvalidEdgeError(f'Iterator output type does not match iterator input type')
# Validate if collector input type matches output type (if this edge results in both being set)
if isinstance(to_node, CollectInvocation) and edge.destination.field == "item":
if not self._is_collector_connection_valid(
edge.destination.node_id, new_input=edge.source
):
raise InvalidEdgeError(f'Collector output type does not match collector input type: {edge.source.node_id}.{edge.source.field} to {edge.destination.node_id}.{edge.destination.field}')
raise InvalidEdgeError(f'Collector output type does not match collector input type')
# Validate if collector output type matches input type (if this edge results in both being set)
if isinstance(from_node, CollectInvocation) and edge.source.field == "collection":
if not self._is_collector_connection_valid(
edge.source.node_id, new_output=edge.destination
):
raise InvalidEdgeError(f'Collector input type does not match collector output type: {edge.source.node_id}.{edge.source.field} to {edge.destination.node_id}.{edge.destination.field}')
raise InvalidEdgeError(f'Collector input type does not match collector output type')
def has_node(self, node_path: str) -> bool:
@ -722,11 +692,7 @@ class Graph(BaseModel):
input_root_type = next(t[0] for t in type_degrees if t[1] == 0) # type: ignore
# Verify that all outputs are lists
# if not all((get_origin(f) == list for f in output_fields)):
# return False
# Verify that all outputs are lists
if not all(is_list_or_contains_list(f) for f in output_fields):
if not all((get_origin(f) == list for f in output_fields)):
return False
# Verify that all outputs match the input type (are a base class or the same class)
@ -745,13 +711,6 @@ class Graph(BaseModel):
g.add_edges_from(set([(e.source.node_id, e.destination.node_id) for e in self.edges]))
return g
def nx_graph_with_data(self) -> nx.DiGraph:
"""Returns a NetworkX DiGraph representing the data and layout of this graph"""
g = nx.DiGraph()
g.add_nodes_from([n for n in self.nodes.items()])
g.add_edges_from(set([(e.source.node_id, e.destination.node_id) for e in self.edges]))
return g
def nx_graph_flat(
self, nx_graph: Optional[nx.DiGraph] = None, prefix: Optional[str] = None
) -> nx.DiGraph:
@ -857,9 +816,11 @@ class GraphExecutionState(BaseModel):
if next_node is None:
prepared_id = self._prepare()
# Prepare as many nodes as we can
while prepared_id is not None:
prepared_id = self._prepare()
# TODO: prepare multiple nodes at once?
# while prepared_id is not None and not isinstance(self.graph.nodes[prepared_id], IterateInvocation):
# prepared_id = self._prepare()
if prepared_id is not None:
next_node = self._get_next_node()
# Get values from edges
@ -1006,30 +967,14 @@ class GraphExecutionState(BaseModel):
# Get flattened source graph
g = self.graph.nx_graph_flat()
# Find next node that:
# - was not already prepared
# - is not an iterate node whose inputs have not been executed
# - does not have an unexecuted iterate ancestor
# Find next unprepared node where all source nodes are executed
sorted_nodes = nx.topological_sort(g)
next_node_id = next(
(
n
for n in sorted_nodes
# exclude nodes that have already been prepared
if n not in self.source_prepared_mapping
# exclude iterate nodes whose inputs have not been executed
and not (
isinstance(self.graph.get_node(n), IterateInvocation) # `n` is an iterate node...
and not all((e[0] in self.executed for e in g.in_edges(n))) # ...that has unexecuted inputs
)
# exclude nodes who have unexecuted iterate ancestors
and not any(
(
isinstance(self.graph.get_node(a), IterateInvocation) # `a` is an iterate ancestor of `n`...
and a not in self.executed # ...that is not executed
for a in nx.ancestors(g, n) # for all ancestors `a` of node `n`
)
)
and all((e[0] in self.executed for e in g.in_edges(n)))
),
None,
)
@ -1126,22 +1071,9 @@ class GraphExecutionState(BaseModel):
)
def _get_next_node(self) -> Optional[BaseInvocation]:
"""Gets the deepest node that is ready to be executed"""
g = self.execution_graph.nx_graph()
# Depth-first search with pre-order traversal is a depth-first topological sort
sorted_nodes = nx.dfs_preorder_nodes(g)
next_node = next(
(
n
for n in sorted_nodes
if n not in self.executed # the node must not already be executed...
and all((e[0] in self.executed for e in g.in_edges(n))) # ...and all its inputs must be executed
),
None,
)
sorted_nodes = nx.topological_sort(g)
next_node = next((n for n in sorted_nodes if n not in self.executed), None)
if next_node is None:
return None

190
invokeai/app/services/image_file_storage.py
View File

@ -1,190 +0,0 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654) and the InvokeAI Team
from abc import ABC, abstractmethod
from pathlib import Path
from queue import Queue
from typing import Dict, Optional
from PIL.Image import Image as PILImageType
from PIL import Image, PngImagePlugin
from send2trash import send2trash
from invokeai.app.models.image import ResourceOrigin
from invokeai.app.models.metadata import ImageMetadata
from invokeai.app.util.thumbnails import get_thumbnail_name, make_thumbnail
# TODO: Should these excpetions subclass existing python exceptions?
class ImageFileNotFoundException(Exception):
"""Raised when an image file is not found in storage."""
def __init__(self, message="Image file not found"):
super().__init__(message)
class ImageFileSaveException(Exception):
"""Raised when an image cannot be saved."""
def __init__(self, message="Image file not saved"):
super().__init__(message)
class ImageFileDeleteException(Exception):
"""Raised when an image cannot be deleted."""
def __init__(self, message="Image file not deleted"):
super().__init__(message)
class ImageFileStorageBase(ABC):
"""Low-level service responsible for storing and retrieving image files."""
@abstractmethod
def get(self, image_name: str) -> PILImageType:
"""Retrieves an image as PIL Image."""
pass
@abstractmethod
def get_path(self, image_name: str, thumbnail: bool = False) -> str:
"""Gets the internal path to an image or thumbnail."""
pass
# TODO: We need to validate paths before starlette makes the FileResponse, else we get a
# 500 internal server error. I don't like having this method on the service.
@abstractmethod
def validate_path(self, path: str) -> bool:
"""Validates the path given for an image or thumbnail."""
pass
@abstractmethod
def save(
self,
image: PILImageType,
image_name: str,
metadata: Optional[ImageMetadata] = None,
thumbnail_size: int = 256,
) -> None:
"""Saves an image and a 256x256 WEBP thumbnail. Returns a tuple of the image name, thumbnail name, and created timestamp."""
pass
@abstractmethod
def delete(self, image_name: str) -> None:
"""Deletes an image and its thumbnail (if one exists)."""
pass
class DiskImageFileStorage(ImageFileStorageBase):
"""Stores images on disk"""
__output_folder: Path
__cache_ids: Queue # TODO: this is an incredibly naive cache
__cache: Dict[Path, PILImageType]
__max_cache_size: int
def __init__(self, output_folder: str | Path):
self.__cache = dict()
self.__cache_ids = Queue()
self.__max_cache_size = 10 # TODO: get this from config
self.__output_folder: Path = (
output_folder if isinstance(output_folder, Path) else Path(output_folder)
)
self.__thumbnails_folder = self.__output_folder / "thumbnails"
# Validate required output folders at launch
self.__validate_storage_folders()
def get(self, image_name: str) -> PILImageType:
try:
image_path = self.get_path(image_name)
cache_item = self.__get_cache(image_path)
if cache_item:
return cache_item
image = Image.open(image_path)
self.__set_cache(image_path, image)
return image
except FileNotFoundError as e:
raise ImageFileNotFoundException from e
def save(
self,
image: PILImageType,
image_name: str,
metadata: Optional[ImageMetadata] = None,
thumbnail_size: int = 256,
) -> None:
try:
self.__validate_storage_folders()
image_path = self.get_path(image_name)
if metadata is not None:
pnginfo = PngImagePlugin.PngInfo()
pnginfo.add_text("invokeai", metadata.json())
image.save(image_path, "PNG", pnginfo=pnginfo)
else:
image.save(image_path, "PNG")
thumbnail_name = get_thumbnail_name(image_name)
thumbnail_path = self.get_path(thumbnail_name, thumbnail=True)
thumbnail_image = make_thumbnail(image, thumbnail_size)
thumbnail_image.save(thumbnail_path)
self.__set_cache(image_path, image)
self.__set_cache(thumbnail_path, thumbnail_image)
except Exception as e:
raise ImageFileSaveException from e
def delete(self, image_name: str) -> None:
try:
image_path = self.get_path(image_name)
if image_path.exists():
send2trash(image_path)
if image_path in self.__cache:
del self.__cache[image_path]
thumbnail_name = get_thumbnail_name(image_name)
thumbnail_path = self.get_path(thumbnail_name, True)
if thumbnail_path.exists():
send2trash(thumbnail_path)
if thumbnail_path in self.__cache:
del self.__cache[thumbnail_path]
except Exception as e:
raise ImageFileDeleteException from e
# TODO: make this a bit more flexible for e.g. cloud storage
def get_path(self, image_name: str, thumbnail: bool = False) -> Path:
path = self.__output_folder / image_name
if thumbnail:
thumbnail_name = get_thumbnail_name(image_name)
path = self.__thumbnails_folder / thumbnail_name
return path
def validate_path(self, path: str | Path) -> bool:
"""Validates the path given for an image or thumbnail."""
path = path if isinstance(path, Path) else Path(path)
return path.exists()
def __validate_storage_folders(self) -> None:
"""Checks if the required output folders exist and create them if they don't"""
folders: list[Path] = [self.__output_folder, self.__thumbnails_folder]
for folder in folders:
folder.mkdir(parents=True, exist_ok=True)
def __get_cache(self, image_name: Path) -> PILImageType | None:
return None if image_name not in self.__cache else self.__cache[image_name]
def __set_cache(self, image_name: Path, image: PILImageType):
if not image_name in self.__cache:
self.__cache[image_name] = image
self.__cache_ids.put(
image_name
) # TODO: this should refresh position for LRU cache
if len(self.__cache) > self.__max_cache_size:
cache_id = self.__cache_ids.get()
if cache_id in self.__cache:
del self.__cache[cache_id]

499
invokeai/app/services/image_record_storage.py
View File

@ -1,499 +0,0 @@
from abc import ABC, abstractmethod
from datetime import datetime
from typing import Generic, Optional, TypeVar, cast
import sqlite3
import threading
from typing import Optional, Union
from pydantic import BaseModel, Field
from pydantic.generics import GenericModel
from invokeai.app.models.metadata import ImageMetadata
from invokeai.app.models.image import (
ImageCategory,
ResourceOrigin,
)
from invokeai.app.services.models.image_record import (
ImageRecord,
ImageRecordChanges,
deserialize_image_record,
)
T = TypeVar("T", bound=BaseModel)
class OffsetPaginatedResults(GenericModel, Generic[T]):
"""Offset-paginated results"""
# fmt: off
items: list[T] = Field(description="Items")
offset: int = Field(description="Offset from which to retrieve items")
limit: int = Field(description="Limit of items to get")
total: int = Field(description="Total number of items in result")
# fmt: on
# TODO: Should these excpetions subclass existing python exceptions?
class ImageRecordNotFoundException(Exception):
"""Raised when an image record is not found."""
def __init__(self, message="Image record not found"):
super().__init__(message)
class ImageRecordSaveException(Exception):
"""Raised when an image record cannot be saved."""
def __init__(self, message="Image record not saved"):
super().__init__(message)
class ImageRecordDeleteException(Exception):
"""Raised when an image record cannot be deleted."""
def __init__(self, message="Image record not deleted"):
super().__init__(message)
class ImageRecordStorageBase(ABC):
"""Low-level service responsible for interfacing with the image record store."""
# TODO: Implement an `update()` method
@abstractmethod
def get(self, image_name: str) -> ImageRecord:
"""Gets an image record."""
pass
@abstractmethod
def update(
self,
image_name: str,
changes: ImageRecordChanges,
) -> None:
"""Updates an image record."""
pass
@abstractmethod
def get_many(
self,
offset: int = 0,
limit: int = 10,
image_origin: Optional[ResourceOrigin] = None,
categories: Optional[list[ImageCategory]] = None,
is_intermediate: Optional[bool] = None,
board_id: Optional[str] = None,
) -> OffsetPaginatedResults[ImageRecord]:
"""Gets a page of image records."""
pass
# TODO: The database has a nullable `deleted_at` column, currently unused.
# Should we implement soft deletes? Would need coordination with ImageFileStorage.
@abstractmethod
def delete(self, image_name: str) -> None:
"""Deletes an image record."""
pass
@abstractmethod
def delete_many(self, image_names: list[str]) -> None:
"""Deletes many image records."""
pass
@abstractmethod
def save(
self,
image_name: str,
image_origin: ResourceOrigin,
image_category: ImageCategory,
width: int,
height: int,
session_id: Optional[str],
node_id: Optional[str],
metadata: Optional[ImageMetadata],
is_intermediate: bool = False,
) -> datetime:
"""Saves an image record."""
pass
@abstractmethod
def get_most_recent_image_for_board(self, board_id: str) -> ImageRecord | None:
"""Gets the most recent image for a board."""
pass
class SqliteImageRecordStorage(ImageRecordStorageBase):
_filename: str
_conn: sqlite3.Connection
_cursor: sqlite3.Cursor
_lock: threading.Lock
def __init__(self, filename: str) -> None:
super().__init__()
self._filename = filename
self._conn = sqlite3.connect(filename, check_same_thread=False)
# Enable row factory to get rows as dictionaries (must be done before making the cursor!)
self._conn.row_factory = sqlite3.Row
self._cursor = self._conn.cursor()
self._lock = threading.Lock()
try:
self._lock.acquire()
# Enable foreign keys
self._conn.execute("PRAGMA foreign_keys = ON;")
self._create_tables()
self._conn.commit()
finally:
self._lock.release()
def _create_tables(self) -> None:
"""Creates the `images` table."""
# Create the `images` table.
self._cursor.execute(
"""--sql
CREATE TABLE IF NOT EXISTS images (
image_name TEXT NOT NULL PRIMARY KEY,
-- This is an enum in python, unrestricted string here for flexibility
image_origin TEXT NOT NULL,
-- This is an enum in python, unrestricted string here for flexibility
image_category TEXT NOT NULL,
width INTEGER NOT NULL,
height INTEGER NOT NULL,
session_id TEXT,
node_id TEXT,
metadata TEXT,
is_intermediate BOOLEAN DEFAULT FALSE,
board_id TEXT,
created_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- Updated via trigger
updated_at DATETIME NOT NULL DEFAULT(STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')),
-- Soft delete, currently unused
deleted_at DATETIME
);
"""
)
# Create the `images` table indices.
self._cursor.execute(
"""--sql
CREATE UNIQUE INDEX IF NOT EXISTS idx_images_image_name ON images(image_name);
"""
)
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_images_image_origin ON images(image_origin);
"""
)
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_images_image_category ON images(image_category);
"""
)
self._cursor.execute(
"""--sql
CREATE INDEX IF NOT EXISTS idx_images_created_at ON images(created_at);
"""
)
# Add trigger for `updated_at`.
self._cursor.execute(
"""--sql
CREATE TRIGGER IF NOT EXISTS tg_images_updated_at
AFTER UPDATE
ON images FOR EACH ROW
BEGIN
UPDATE images SET updated_at = STRFTIME('%Y-%m-%d %H:%M:%f', 'NOW')
WHERE image_name = old.image_name;
END;
"""
)
def get(self, image_name: str) -> Union[ImageRecord, None]:
try:
self._lock.acquire()
self._cursor.execute(
f"""--sql
SELECT * FROM images
WHERE image_name = ?;
""",
(image_name,),
)
result = cast(Union[sqlite3.Row, None], self._cursor.fetchone())
except sqlite3.Error as e:
self._conn.rollback()
raise ImageRecordNotFoundException from e
finally:
self._lock.release()
if not result:
raise ImageRecordNotFoundException
return deserialize_image_record(dict(result))
def update(
self,
image_name: str,
changes: ImageRecordChanges,
) -> None:
try:
self._lock.acquire()
# Change the category of the image
if changes.image_category is not None:
self._cursor.execute(
f"""--sql
UPDATE images
SET image_category = ?
WHERE image_name = ?;
""",
(changes.image_category, image_name),
)
# Change the session associated with the image
if changes.session_id is not None:
self._cursor.execute(
f"""--sql
UPDATE images
SET session_id = ?
WHERE image_name = ?;
""",
(changes.session_id, image_name),
)
# Change the image's `is_intermediate`` flag
if changes.is_intermediate is not None:
self._cursor.execute(
f"""--sql
UPDATE images
SET is_intermediate = ?
WHERE image_name = ?;
""",
(changes.is_intermediate, image_name),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise ImageRecordSaveException from e
finally:
self._lock.release()
def get_many(
self,
offset: int = 0,
limit: int = 10,
image_origin: Optional[ResourceOrigin] = None,
categories: Optional[list[ImageCategory]] = None,
is_intermediate: Optional[bool] = None,
board_id: Optional[str] = None,
) -> OffsetPaginatedResults[ImageRecord]:
try:
self._lock.acquire()
# Manually build two queries - one for the count, one for the records
count_query = """--sql
SELECT COUNT(*)
FROM images
LEFT JOIN board_images ON board_images.image_name = images.image_name
WHERE 1=1
"""
images_query = """--sql
SELECT images.*
FROM images
LEFT JOIN board_images ON board_images.image_name = images.image_name
WHERE 1=1
"""
query_conditions = ""
query_params = []
if image_origin is not None:
query_conditions += """--sql
AND images.image_origin = ?
"""
query_params.append(image_origin.value)
if categories is not None:
# Convert the enum values to unique list of strings
category_strings = list(map(lambda c: c.value, set(categories)))
# Create the correct length of placeholders
placeholders = ",".join("?" * len(category_strings))
query_conditions += f"""--sql
AND images.image_category IN ( {placeholders} )
"""
# Unpack the included categories into the query params
for c in category_strings:
query_params.append(c)
if is_intermediate is not None:
query_conditions += """--sql
AND images.is_intermediate = ?
"""
query_params.append(is_intermediate)
if board_id is not None:
query_conditions += """--sql
AND board_images.board_id = ?
"""
query_params.append(board_id)
query_pagination = """--sql
ORDER BY images.created_at DESC LIMIT ? OFFSET ?
"""
# Final images query with pagination
images_query += query_conditions + query_pagination + ";"
# Add all the parameters
images_params = query_params.copy()
images_params.append(limit)
images_params.append(offset)
# Build the list of images, deserializing each row
self._cursor.execute(images_query, images_params)
result = cast(list[sqlite3.Row], self._cursor.fetchall())
images = list(map(lambda r: deserialize_image_record(dict(r)), result))
# Set up and execute the count query, without pagination
count_query += query_conditions + ";"
count_params = query_params.copy()
self._cursor.execute(count_query, count_params)
count = cast(int, self._cursor.fetchone()[0])
except sqlite3.Error as e:
self._conn.rollback()
raise e
finally:
self._lock.release()
return OffsetPaginatedResults(
items=images, offset=offset, limit=limit, total=count
)
def delete(self, image_name: str) -> None:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
DELETE FROM images
WHERE image_name = ?;
""",
(image_name,),
)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise ImageRecordDeleteException from e
finally:
self._lock.release()
def delete_many(self, image_names: list[str]) -> None:
try:
placeholders = ",".join("?" for _ in image_names)
self._lock.acquire()
# Construct the SQLite query with the placeholders
query = f"DELETE FROM images WHERE image_name IN ({placeholders})"
# Execute the query with the list of IDs as parameters
self._cursor.execute(query, image_names)
self._conn.commit()
except sqlite3.Error as e:
self._conn.rollback()
raise ImageRecordDeleteException from e
finally:
self._lock.release()
def save(
self,
image_name: str,
image_origin: ResourceOrigin,
image_category: ImageCategory,
session_id: Optional[str],
width: int,
height: int,
node_id: Optional[str],
metadata: Optional[ImageMetadata],
is_intermediate: bool = False,
) -> datetime:
try:
metadata_json = (
None if metadata is None else metadata.json(exclude_none=True)
)
self._lock.acquire()
self._cursor.execute(
"""--sql
INSERT OR IGNORE INTO images (
image_name,
image_origin,
image_category,
width,
height,
node_id,
session_id,
metadata,
is_intermediate
)
VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?);
""",
(
image_name,
image_origin.value,
image_category.value,
width,
height,
node_id,
session_id,
metadata_json,
is_intermediate,
),
)
self._conn.commit()
self._cursor.execute(
"""--sql
SELECT created_at
FROM images
WHERE image_name = ?;
""",
(image_name,),
)
created_at = datetime.fromisoformat(self._cursor.fetchone()[0])
return created_at
except sqlite3.Error as e:
self._conn.rollback()
raise ImageRecordSaveException from e
finally:
self._lock.release()
def get_most_recent_image_for_board(
self, board_id: str
) -> Union[ImageRecord, None]:
try:
self._lock.acquire()
self._cursor.execute(
"""--sql
SELECT images.*
FROM images
JOIN board_images ON images.image_name = board_images.image_name
WHERE board_images.board_id = ?
ORDER BY images.created_at DESC
LIMIT 1;
""",
(board_id,),
)
result = cast(Union[sqlite3.Row, None], self._cursor.fetchone())
finally:
self._lock.release()
if result is None:
return None
return deserialize_image_record(dict(result))

229
invokeai/app/services/image_storage.py Normal file
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@ -0,0 +1,229 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
import datetime
import os
import json
from glob import glob
from abc import ABC, abstractmethod
from pathlib import Path
from queue import Queue
from typing import Any, Dict, List, Tuple
from PIL.Image import Image
import PIL.Image as PILImage
from PIL import PngImagePlugin
from invokeai.app.api.models.images import ImageResponse
from invokeai.app.models.image import ImageType
from invokeai.app.modules.metadata import ImageMetadata, InvokeAIMetadata, MetadataModule
from invokeai.app.services.item_storage import PaginatedResults
from invokeai.app.util.get_timestamp import get_timestamp
from invokeai.app.util.image_paths import build_image_path
from invokeai.app.util.thumbnails import get_thumbnail_name, make_thumbnail
from invokeai.backend.image_util import PngWriter
class ImageStorageBase(ABC):
"""Responsible for storing and retrieving images."""
@abstractmethod
def get(self, image_type: ImageType, image_name: str) -> Image:
"""Retrieves an image as PIL Image."""
pass
@abstractmethod
def list(
self, image_type: ImageType, page: int = 0, per_page: int = 10
) -> PaginatedResults[ImageResponse]:
"""Gets a paginated list of images."""
pass
# TODO: make this a bit more flexible for e.g. cloud storage
@abstractmethod
def get_path(
self, image_type: ImageType, image_name: str, is_thumbnail: bool = False
) -> str:
"""Gets the path to an image or its thumbnail."""
pass
# TODO: make this a bit more flexible for e.g. cloud storage
@abstractmethod
def validate_path(
self, path: str
) -> bool:
"""Validates an image path."""
pass
@abstractmethod
def save(self, image_type: ImageType, image_name: str, image: Image, metadata: InvokeAIMetadata | None = None) -> Tuple[str, str, int]:
"""Saves an image and a 256x256 WEBP thumbnail. Returns a tuple of the image path, thumbnail path, and created timestamp."""
pass
@abstractmethod
def delete(self, image_type: ImageType, image_name: str) -> None:
"""Deletes an image and its thumbnail (if one exists)."""
pass
def create_name(self, context_id: str, node_id: str) -> str:
"""Creates a unique contextual image filename."""
return f"{context_id}_{node_id}_{str(get_timestamp())}.png"
class DiskImageStorage(ImageStorageBase):
"""Stores images on disk"""
__output_folder: str
__cache_ids: Queue # TODO: this is an incredibly naive cache
__cache: Dict[str, Image]
__max_cache_size: int
def __init__(self, output_folder: str):
self.__output_folder = output_folder
self.__cache = dict()
self.__cache_ids = Queue()
self.__max_cache_size = 10 # TODO: get this from config
Path(output_folder).mkdir(parents=True, exist_ok=True)
# TODO: don't hard-code. get/save/delete should maybe take subpath?
for image_type in ImageType:
Path(os.path.join(output_folder, image_type)).mkdir(
parents=True, exist_ok=True
)
Path(os.path.join(output_folder, image_type, "thumbnails")).mkdir(
parents=True, exist_ok=True
)
def list(
self, image_type: ImageType, page: int = 0, per_page: int = 10
) -> PaginatedResults[ImageResponse]:
dir_path = os.path.join(self.__output_folder, image_type)
image_paths = glob(f"{dir_path}/*.png")
count = len(image_paths)
sorted_image_paths = sorted(
glob(f"{dir_path}/*.png"), key=os.path.getctime, reverse=True
)
page_of_image_paths = sorted_image_paths[
page * per_page : (page + 1) * per_page
]
page_of_images: List[ImageResponse] = []
for path in page_of_image_paths:
filename = os.path.basename(path)
img = PILImage.open(path)
invokeai_metadata = MetadataModule.get_metadata(img)
page_of_images.append(
ImageResponse(
image_type=image_type.value,
image_name=filename,
image_url=build_image_path(image_type.value, filename),
thumbnail_url = build_image_path(image_type.value, filename, True),
# TODO: Creation of this object should happen elsewhere (?), just making it fit here so it works
metadata=ImageMetadata(
created=int(os.path.getctime(path)),
width=img.width,
height=img.height,
mode=img.mode,
invokeai=invokeai_metadata
),
)
)
page_count_trunc = int(count / per_page)
page_count_mod = count % per_page
page_count = page_count_trunc if page_count_mod == 0 else page_count_trunc + 1
return PaginatedResults[ImageResponse](
items=page_of_images,
page=page,
pages=page_count,
per_page=per_page,
total=count,
)
def get(self, image_type: ImageType, image_name: str) -> Image:
image_path = self.get_path(image_type, image_name)
cache_item = self.__get_cache(image_path)
if cache_item:
return cache_item
image = PILImage.open(image_path)
self.__set_cache(image_path, image)
return image
# TODO: make this a bit more flexible for e.g. cloud storage
def get_path(
self, image_type: ImageType, image_name: str, is_thumbnail: bool = False
) -> str:
# strip out any relative path shenanigans
basename = os.path.basename(image_name)
if is_thumbnail:
path = os.path.join(
self.__output_folder, image_type, "thumbnails", basename
)
else:
path = os.path.join(self.__output_folder, image_type, basename)
return path
def validate_path(
self, path: str
) -> bool:
try:
os.stat(path)
return True
except Exception:
return False
def save(self, image_type: ImageType, image_name: str, image: Image, metadata: InvokeAIMetadata | None = None) -> Tuple[str, str, int]:
image_path = self.get_path(image_type, image_name)
thumbnail_name = get_thumbnail_name(image_name)
thumbnail_path = self.get_path(image_type, thumbnail_name, is_thumbnail=True)
png_info = MetadataModule.build_png_info(metadata=metadata)
image.save(image_path, "PNG", pnginfo=png_info)
thumbnail_image = make_thumbnail(image)
thumbnail_image.save(thumbnail_path)
self.__set_cache(image_path, image)
self.__set_cache(thumbnail_path, thumbnail_image)
return (image_path, thumbnail_path, int(os.path.getctime(image_path)))
def delete(self, image_type: ImageType, image_name: str) -> None:
image_path = self.get_path(image_type, image_name)
thumbnail_path = self.get_path(image_type, image_name, True)
if os.path.exists(image_path):
os.remove(image_path)
if image_path in self.__cache:
del self.__cache[image_path]
if os.path.exists(thumbnail_path):
os.remove(thumbnail_path)
if thumbnail_path in self.__cache:
del self.__cache[thumbnail_path]
def __get_cache(self, image_name: str) -> Image:
return None if image_name not in self.__cache else self.__cache[image_name]
def __set_cache(self, image_name: str, image: Image):
if not image_name in self.__cache:
self.__cache[image_name] = image
self.__cache_ids.put(
image_name
) # TODO: this should refresh position for LRU cache
if len(self.__cache) > self.__max_cache_size:
cache_id = self.__cache_ids.get()
del self.__cache[cache_id]

381
invokeai/app/services/images.py
View File

@ -1,381 +0,0 @@
from abc import ABC, abstractmethod
from logging import Logger
from typing import Optional, TYPE_CHECKING, Union
from PIL.Image import Image as PILImageType
from invokeai.app.models.image import (
ImageCategory,
ResourceOrigin,
InvalidImageCategoryException,
InvalidOriginException,
)
from invokeai.app.models.metadata import ImageMetadata
from invokeai.app.services.board_image_record_storage import BoardImageRecordStorageBase
from invokeai.app.services.image_record_storage import (
ImageRecordDeleteException,
ImageRecordNotFoundException,
ImageRecordSaveException,
ImageRecordStorageBase,
OffsetPaginatedResults,
)
from invokeai.app.services.models.image_record import (
ImageRecord,
ImageDTO,
ImageRecordChanges,
image_record_to_dto,
)
from invokeai.app.services.image_file_storage import (
ImageFileDeleteException,
ImageFileNotFoundException,
ImageFileSaveException,
ImageFileStorageBase,
)
from invokeai.app.services.item_storage import ItemStorageABC, PaginatedResults
from invokeai.app.services.metadata import MetadataServiceBase
from invokeai.app.services.resource_name import NameServiceBase
from invokeai.app.services.urls import UrlServiceBase
if TYPE_CHECKING:
from invokeai.app.services.graph import GraphExecutionState
class ImageServiceABC(ABC):
"""High-level service for image management."""
@abstractmethod
def create(
self,
image: PILImageType,
image_origin: ResourceOrigin,
image_category: ImageCategory,
node_id: Optional[str] = None,
session_id: Optional[str] = None,
is_intermediate: bool = False,
) -> ImageDTO:
"""Creates an image, storing the file and its metadata."""
pass
@abstractmethod
def update(
self,
image_name: str,
changes: ImageRecordChanges,
) -> ImageDTO:
"""Updates an image."""
pass
@abstractmethod
def get_pil_image(self, image_name: str) -> PILImageType:
"""Gets an image as a PIL image."""
pass
@abstractmethod
def get_record(self, image_name: str) -> ImageRecord:
"""Gets an image record."""
pass
@abstractmethod
def get_dto(self, image_name: str) -> ImageDTO:
"""Gets an image DTO."""
pass
@abstractmethod
def get_path(self, image_name: str, thumbnail: bool = False) -> str:
"""Gets an image's path."""
pass
@abstractmethod
def validate_path(self, path: str) -> bool:
"""Validates an image's path."""
pass
@abstractmethod
def get_url(self, image_name: str, thumbnail: bool = False) -> str:
"""Gets an image's or thumbnail's URL."""
pass
@abstractmethod
def get_many(
self,
offset: int = 0,
limit: int = 10,
image_origin: Optional[ResourceOrigin] = None,
categories: Optional[list[ImageCategory]] = None,
is_intermediate: Optional[bool] = None,
board_id: Optional[str] = None,
) -> OffsetPaginatedResults[ImageDTO]:
"""Gets a paginated list of image DTOs."""
pass
@abstractmethod
def delete(self, image_name: str):
"""Deletes an image."""
pass
@abstractmethod
def delete_images_on_board(self, board_id: str):
"""Deletes all images on a board."""
pass
class ImageServiceDependencies:
"""Service dependencies for the ImageService."""
image_records: ImageRecordStorageBase
image_files: ImageFileStorageBase
board_image_records: BoardImageRecordStorageBase
metadata: MetadataServiceBase
urls: UrlServiceBase
logger: Logger
names: NameServiceBase
graph_execution_manager: ItemStorageABC["GraphExecutionState"]
def __init__(
self,
image_record_storage: ImageRecordStorageBase,
image_file_storage: ImageFileStorageBase,
board_image_record_storage: BoardImageRecordStorageBase,
metadata: MetadataServiceBase,
url: UrlServiceBase,
logger: Logger,
names: NameServiceBase,
graph_execution_manager: ItemStorageABC["GraphExecutionState"],
):
self.image_records = image_record_storage
self.image_files = image_file_storage
self.board_image_records = board_image_record_storage
self.metadata = metadata
self.urls = url
self.logger = logger
self.names = names
self.graph_execution_manager = graph_execution_manager
class ImageService(ImageServiceABC):
_services: ImageServiceDependencies
def __init__(self, services: ImageServiceDependencies):
self._services = services
def create(
self,
image: PILImageType,
image_origin: ResourceOrigin,
image_category: ImageCategory,
node_id: Optional[str] = None,
session_id: Optional[str] = None,
is_intermediate: bool = False,
) -> ImageDTO:
if image_origin not in ResourceOrigin:
raise InvalidOriginException
if image_category not in ImageCategory:
raise InvalidImageCategoryException
image_name = self._services.names.create_image_name()
metadata = self._get_metadata(session_id, node_id)
(width, height) = image.size
try:
# TODO: Consider using a transaction here to ensure consistency between storage and database
self._services.image_records.save(
# Non-nullable fields
image_name=image_name,
image_origin=image_origin,
image_category=image_category,
width=width,
height=height,
# Meta fields
is_intermediate=is_intermediate,
# Nullable fields
node_id=node_id,
session_id=session_id,
metadata=metadata,
)
self._services.image_files.save(
image_name=image_name,
image=image,
metadata=metadata,
)
image_dto = self.get_dto(image_name)
return image_dto
except ImageRecordSaveException:
self._services.logger.error("Failed to save image record")
raise
except ImageFileSaveException:
self._services.logger.error("Failed to save image file")
raise
except Exception as e:
self._services.logger.error("Problem saving image record and file")
raise e
def update(
self,
image_name: str,
changes: ImageRecordChanges,
) -> ImageDTO:
try:
self._services.image_records.update(image_name, changes)
return self.get_dto(image_name)
except ImageRecordSaveException:
self._services.logger.error("Failed to update image record")
raise
except Exception as e:
self._services.logger.error("Problem updating image record")
raise e
def get_pil_image(self, image_name: str) -> PILImageType:
try:
return self._services.image_files.get(image_name)
except ImageFileNotFoundException:
self._services.logger.error("Failed to get image file")
raise
except Exception as e:
self._services.logger.error("Problem getting image file")
raise e
def get_record(self, image_name: str) -> ImageRecord:
try:
return self._services.image_records.get(image_name)
except ImageRecordNotFoundException:
self._services.logger.error("Image record not found")
raise
except Exception as e:
self._services.logger.error("Problem getting image record")
raise e
def get_dto(self, image_name: str) -> ImageDTO:
try:
image_record = self._services.image_records.get(image_name)
image_dto = image_record_to_dto(
image_record,
self._services.urls.get_image_url(image_name),
self._services.urls.get_image_url(image_name, True),
self._services.board_image_records.get_board_for_image(image_name),
)
return image_dto
except ImageRecordNotFoundException:
self._services.logger.error("Image record not found")
raise
except Exception as e:
self._services.logger.error("Problem getting image DTO")
raise e
def get_path(self, image_name: str, thumbnail: bool = False) -> str:
try:
return self._services.image_files.get_path(image_name, thumbnail)
except Exception as e:
self._services.logger.error("Problem getting image path")
raise e
def validate_path(self, path: str) -> bool:
try:
return self._services.image_files.validate_path(path)
except Exception as e:
self._services.logger.error("Problem validating image path")
raise e
def get_url(self, image_name: str, thumbnail: bool = False) -> str:
try:
return self._services.urls.get_image_url(image_name, thumbnail)
except Exception as e:
self._services.logger.error("Problem getting image path")
raise e
def get_many(
self,
offset: int = 0,
limit: int = 10,
image_origin: Optional[ResourceOrigin] = None,
categories: Optional[list[ImageCategory]] = None,
is_intermediate: Optional[bool] = None,
board_id: Optional[str] = None,
) -> OffsetPaginatedResults[ImageDTO]:
try:
results = self._services.image_records.get_many(
offset,
limit,
image_origin,
categories,
is_intermediate,
board_id,
)
image_dtos = list(
map(
lambda r: image_record_to_dto(
r,
self._services.urls.get_image_url(r.image_name),
self._services.urls.get_image_url(r.image_name, True),
self._services.board_image_records.get_board_for_image(
r.image_name
),
),
results.items,
)
)
return OffsetPaginatedResults[ImageDTO](
items=image_dtos,
offset=results.offset,
limit=results.limit,
total=results.total,
)
except Exception as e:
self._services.logger.error("Problem getting paginated image DTOs")
raise e
def delete(self, image_name: str):
try:
self._services.image_files.delete(image_name)
self._services.image_records.delete(image_name)
except ImageRecordDeleteException:
self._services.logger.error(f"Failed to delete image record")
raise
except ImageFileDeleteException:
self._services.logger.error(f"Failed to delete image file")
raise
except Exception as e:
self._services.logger.error("Problem deleting image record and file")
raise e
def delete_images_on_board(self, board_id: str):
try:
images = self._services.board_image_records.get_images_for_board(board_id)
image_name_list = list(
map(
lambda r: r.image_name,
images.items,
)
)
for image_name in image_name_list:
self._services.image_files.delete(image_name)
self._services.image_records.delete_many(image_name_list)
except ImageRecordDeleteException:
self._services.logger.error(f"Failed to delete image records")
raise
except ImageFileDeleteException:
self._services.logger.error(f"Failed to delete image files")
raise
except Exception as e:
self._services.logger.error("Problem deleting image records and files")
raise e
def _get_metadata(
self, session_id: Optional[str] = None, node_id: Optional[str] = None
) -> Union[ImageMetadata, None]:
"""Get the metadata for a node."""
metadata = None
if node_id is not None and session_id is not None:
session = self._services.graph_execution_manager.get(session_id)
metadata = self._services.metadata.create_image_metadata(session, node_id)
return metadata

77
invokeai/app/services/invocation_services.py
View File

@ -1,67 +1,46 @@
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654) and the InvokeAI Team
from __future__ import annotations
from typing import TYPE_CHECKING
if TYPE_CHECKING:
from logging import Logger
from invokeai.app.services.board_images import BoardImagesServiceABC
from invokeai.app.services.boards import BoardServiceABC
from invokeai.app.services.images import ImageServiceABC
from invokeai.backend import ModelManager
from invokeai.app.services.events import EventServiceBase
from invokeai.app.services.latent_storage import LatentsStorageBase
from invokeai.app.services.restoration_services import RestorationServices
from invokeai.app.services.invocation_queue import InvocationQueueABC
from invokeai.app.services.item_storage import ItemStorageABC
from invokeai.app.services.config import InvokeAISettings
from invokeai.app.services.graph import GraphExecutionState, LibraryGraph
from invokeai.app.services.invoker import InvocationProcessorABC
# Copyright (c) 2022 Kyle Schouviller (https://github.com/kyle0654)
from invokeai.backend import ModelManager
from .events import EventServiceBase
from .latent_storage import LatentsStorageBase
from .image_storage import ImageStorageBase
from .restoration_services import RestorationServices
from .invocation_queue import InvocationQueueABC
from .item_storage import ItemStorageABC
class InvocationServices:
"""Services that can be used by invocations"""
# TODO: Just forward-declared everything due to circular dependencies. Fix structure.
events: "EventServiceBase"
latents: "LatentsStorageBase"
queue: "InvocationQueueABC"
model_manager: "ModelManager"
restoration: "RestorationServices"
configuration: "InvokeAISettings"
images: "ImageServiceABC"
boards: "BoardServiceABC"
board_images: "BoardImagesServiceABC"
graph_library: "ItemStorageABC"["LibraryGraph"]
graph_execution_manager: "ItemStorageABC"["GraphExecutionState"]
events: EventServiceBase
latents: LatentsStorageBase
images: ImageStorageBase
queue: InvocationQueueABC
model_manager: ModelManager
restoration: RestorationServices
# NOTE: we must forward-declare any types that include invocations, since invocations can use services
graph_library: ItemStorageABC["LibraryGraph"]
graph_execution_manager: ItemStorageABC["GraphExecutionState"]
processor: "InvocationProcessorABC"
def __init__(
self,
model_manager: "ModelManager",
events: "EventServiceBase",
logger: "Logger",
latents: "LatentsStorageBase",
images: "ImageServiceABC",
boards: "BoardServiceABC",
board_images: "BoardImagesServiceABC",
queue: "InvocationQueueABC",
graph_library: "ItemStorageABC"["LibraryGraph"],
graph_execution_manager: "ItemStorageABC"["GraphExecutionState"],
processor: "InvocationProcessorABC",
restoration: "RestorationServices",
configuration: "InvokeAISettings",
self,
model_manager: ModelManager,
events: EventServiceBase,
latents: LatentsStorageBase,
images: ImageStorageBase,
queue: InvocationQueueABC,
graph_library: ItemStorageABC["LibraryGraph"],
graph_execution_manager: ItemStorageABC["GraphExecutionState"],
processor: "InvocationProcessorABC",
restoration: RestorationServices,
):
self.model_manager = model_manager
self.events = events
self.logger = logger
self.latents = latents
self.images = images
self.boards = boards
self.board_images = board_images
self.queue = queue
self.graph_library = graph_library
self.graph_execution_manager = graph_execution_manager
self.processor = processor
self.restoration = restoration
self.configuration = configuration
self.boards = boards

11
invokeai/app/services/invoker.py
View File

@ -22,8 +22,7 @@ class Invoker:
def invoke(
self, graph_execution_state: GraphExecutionState, invoke_all: bool = False
) -> str | None:
"""Determines the next node to invoke and enqueues it, preparing if needed.
Returns the id of the queued node, or `None` if there are no nodes left to enqueue."""
"""Determines the next node to invoke and returns the id of the invoked node, or None if there are no nodes to execute"""
# Get the next invocation
invocation = graph_execution_state.next()
@ -50,7 +49,7 @@ class Invoker:
new_state = GraphExecutionState(graph=Graph() if graph is None else graph)
self.services.graph_execution_manager.set(new_state)
return new_state
def cancel(self, graph_execution_state_id: str) -> None:
"""Cancels the given execution state"""
self.services.queue.cancel(graph_execution_state_id)
@ -72,12 +71,18 @@ class Invoker:
for service in vars(self.services):
self.__start_service(getattr(self.services, service))
for service in vars(self.services):
self.__start_service(getattr(self.services, service))
def stop(self) -> None:
"""Stops the invoker. A new invoker will have to be created to execute further."""
# First stop all services
for service in vars(self.services):
self.__stop_service(getattr(self.services, service))
for service in vars(self.services):
self.__stop_service(getattr(self.services, service))
self.services.queue.put(None)

25
invokeai/app/services/latent_storage.py
View File

@ -1,5 +1,6 @@
# Copyright (c) 2023 Kyle Schouviller (https://github.com/kyle0654)
import os
from abc import ABC, abstractmethod
from pathlib import Path
from queue import Queue
@ -15,7 +16,7 @@ class LatentsStorageBase(ABC):
pass
@abstractmethod
def save(self, name: str, data: torch.Tensor) -> None:
def set(self, name: str, data: torch.Tensor) -> None:
pass
@abstractmethod
@ -46,8 +47,8 @@ class ForwardCacheLatentsStorage(LatentsStorageBase):
self.__set_cache(name, latent)
return latent
def save(self, name: str, data: torch.Tensor) -> None:
self.__underlying_storage.save(name, data)
def set(self, name: str, data: torch.Tensor) -> None:
self.__underlying_storage.set(name, data)
self.__set_cache(name, data)
def delete(self, name: str) -> None:
@ -69,26 +70,24 @@ class ForwardCacheLatentsStorage(LatentsStorageBase):
class DiskLatentsStorage(LatentsStorageBase):
"""Stores latents in a folder on disk without caching"""
__output_folder: str | Path
__output_folder: str
def __init__(self, output_folder: str | Path):
self.__output_folder = output_folder if isinstance(output_folder, Path) else Path(output_folder)
self.__output_folder.mkdir(parents=True, exist_ok=True)
def __init__(self, output_folder: str):
self.__output_folder = output_folder
Path(output_folder).mkdir(parents=True, exist_ok=True)
def get(self, name: str) -> torch.Tensor:
latent_path = self.get_path(name)
return torch.load(latent_path)
def save(self, name: str, data: torch.Tensor) -> None:
self.__output_folder.mkdir(parents=True, exist_ok=True)
def set(self, name: str, data: torch.Tensor) -> None:
latent_path = self.get_path(name)
torch.save(data, latent_path)
def delete(self, name: str) -> None:
latent_path = self.get_path(name)
latent_path.unlink()
os.remove(latent_path)
def get_path(self, name: str) -> Path:
return self.__output_folder / name
def get_path(self, name: str) -> str:
return os.path.join(self.__output_folder, name)

142
invokeai/app/services/metadata.py
View File

@ -1,142 +0,0 @@
from abc import ABC, abstractmethod
from typing import Any, Union
import networkx as nx
from invokeai.app.models.metadata import ImageMetadata
from invokeai.app.services.graph import Graph, GraphExecutionState
class MetadataServiceBase(ABC):
"""Handles building metadata for nodes, images, and outputs."""
@abstractmethod
def create_image_metadata(
self, session: GraphExecutionState, node_id: str
) -> ImageMetadata:
"""Builds an ImageMetadata object for a node."""
pass
class CoreMetadataService(MetadataServiceBase):
_ANCESTOR_TYPES = ["t2l", "l2l"]
"""The ancestor types that contain the core metadata"""
_ANCESTOR_PARAMS = ["type", "steps", "model", "cfg_scale", "scheduler", "strength"]
"""The core metadata parameters in the ancestor types"""
_NOISE_FIELDS = ["seed", "width", "height"]
"""The core metadata parameters in the noise node"""
def create_image_metadata(
self, session: GraphExecutionState, node_id: str
) -> ImageMetadata:
metadata = self._build_metadata_from_graph(session, node_id)
return metadata
def _find_nearest_ancestor(self, G: nx.DiGraph, node_id: str) -> Union[str, None]:
"""
Finds the id of the nearest ancestor (of a valid type) of a given node.
Parameters:
G (nx.DiGraph): The execution graph, converted in to a networkx DiGraph. Its nodes must
have the same data as the execution graph.
node_id (str): The ID of the node.
Returns:
str | None: The ID of the nearest ancestor, or None if there are no valid ancestors.
"""
# Retrieve the node from the graph
node = G.nodes[node_id]
# If the node type is one of the core metadata node types, return its id
if node.get("type") in self._ANCESTOR_TYPES:
return node.get("id")
# Else, look for the ancestor in the predecessor nodes
for predecessor in G.predecessors(node_id):
result = self._find_nearest_ancestor(G, predecessor)
if result:
return result
# If there are no valid ancestors, return None
return None
def _get_additional_metadata(
self, graph: Graph, node_id: str
) -> Union[dict[str, Any], None]:
"""
Returns additional metadata for a given node.
Parameters:
graph (Graph): The execution graph.
node_id (str): The ID of the node.
Returns:
dict[str, Any] | None: A dictionary of additional metadata.
"""
metadata = {}
# Iterate over all edges in the graph
for edge in graph.edges:
dest_node_id = edge.destination.node_id
dest_field = edge.destination.field
source_node_dict = graph.nodes[edge.source.node_id].dict()
# If the destination node ID matches the given node ID, gather necessary metadata
if dest_node_id == node_id:
# Prompt
if dest_field == "positive_conditioning":
metadata["positive_conditioning"] = source_node_dict.get("prompt")
# Negative prompt
if dest_field == "negative_conditioning":
metadata["negative_conditioning"] = source_node_dict.get("prompt")
# Seed, width and height
if dest_field == "noise":
for field in self._NOISE_FIELDS:
metadata[field] = source_node_dict.get(field)
return metadata
def _build_metadata_from_graph(
self, session: GraphExecutionState, node_id: str
) -> ImageMetadata:
"""
Builds an ImageMetadata object for a node.
Parameters:
session (GraphExecutionState): The session.
node_id (str): The ID of the node.
Returns:
ImageMetadata: The metadata for the node.
"""
# We need to do all the traversal on the execution graph
graph = session.execution_graph
# Find the nearest `t2l`/`l2l` ancestor of the given node
ancestor_id = self._find_nearest_ancestor(graph.nx_graph_with_data(), node_id)
# If no ancestor was found, return an empty ImageMetadata object
if ancestor_id is None:
return ImageMetadata()
ancestor_node = graph.get_node(ancestor_id)
# Grab all the core metadata from the ancestor node
ancestor_metadata = {
param: val
for param, val in ancestor_node.dict().items()
if param in self._ANCESTOR_PARAMS
}
# Get this image's prompts and noise parameters
addl_metadata = self._get_additional_metadata(graph, ancestor_id)
# If additional metadata was found, add it to the main metadata
if addl_metadata is not None:
ancestor_metadata.update(addl_metadata)
return ImageMetadata(**ancestor_metadata)

120
invokeai/app/services/model_manager_initializer.py Normal file
View File

@ -0,0 +1,120 @@
import os
import sys
import torch
from argparse import Namespace
from invokeai.backend import Args
from omegaconf import OmegaConf
from pathlib import Path
import invokeai.version
from ...backend import ModelManager
from ...backend.util import choose_precision, choose_torch_device
from ...backend import Globals
# TODO: Replace with an abstract class base ModelManagerBase
def get_model_manager(config: Args) -> ModelManager:
if not config.conf:
config_file = os.path.join(Globals.root, "configs", "models.yaml")
if not os.path.exists(config_file):
report_model_error(
config, FileNotFoundError(f"The file {config_file} could not be found.")
)
print(f">> {invokeai.version.__app_name__}, version {invokeai.version.__version__}")
print(f'>> InvokeAI runtime directory is "{Globals.root}"')
# these two lines prevent a horrible warning message from appearing
# when the frozen CLIP tokenizer is imported
import transformers # type: ignore
transformers.logging.set_verbosity_error()
import diffusers
diffusers.logging.set_verbosity_error()
# normalize the config directory relative to root
if not os.path.isabs(config.conf):
config.conf = os.path.normpath(os.path.join(Globals.root, config.conf))
if config.embeddings:
if not os.path.isabs(config.embedding_path):
embedding_path = os.path.normpath(
os.path.join(Globals.root, config.embedding_path)
)
else:
embedding_path = config.embedding_path
else:
embedding_path = None
# migrate legacy models
ModelManager.migrate_models()
# creating the model manager
try:
device = torch.device(choose_torch_device())
precision = 'float16' if config.precision=='float16' \
else 'float32' if config.precision=='float32' \
else choose_precision(device)
model_manager = ModelManager(
OmegaConf.load(config.conf),
precision=precision,
device_type=device,
max_loaded_models=config.max_loaded_models,
embedding_path = Path(embedding_path),
)
except (FileNotFoundError, TypeError, AssertionError) as e:
report_model_error(config, e)
except (IOError, KeyError) as e:
print(f"{e}. Aborting.")
sys.exit(-1)
# try to autoconvert new models
# autoimport new .ckpt files
if path := config.autoconvert:
model_manager.autoconvert_weights(
conf_path=config.conf,
weights_directory=path,
)
return model_manager
def report_model_error(opt: Namespace, e: Exception):
print(f'** An error occurred while attempting to initialize the model: "{str(e)}"')
print(
"** This can be caused by a missing or corrupted models file, and can sometimes be fixed by (re)installing the models."
)
yes_to_all = os.environ.get("INVOKE_MODEL_RECONFIGURE")
if yes_to_all:
print(
"** Reconfiguration is being forced by environment variable INVOKE_MODEL_RECONFIGURE"
)
else:
response = input(
"Do you want to run invokeai-configure script to select and/or reinstall models? [y] "
)
if response.startswith(("n", "N")):
return
print("invokeai-configure is launching....\n")
# Match arguments that were set on the CLI
# only the arguments accepted by the configuration script are parsed
root_dir = ["--root", opt.root_dir] if opt.root_dir is not None else []
config = ["--config", opt.conf] if opt.conf is not None else []
previous_config = sys.argv
sys.argv = ["invokeai-configure"]
sys.argv.extend(root_dir)
sys.argv.extend(config.to_dict())
if yes_to_all is not None:
for arg in yes_to_all.split():
sys.argv.append(arg)
from invokeai.frontend.install import invokeai_configure
invokeai_configure()
# TODO: Figure out how to restart
# print('** InvokeAI will now restart')
# sys.argv = previous_args
# main() # would rather do a os.exec(), but doesn't exist?
# sys.exit(0)

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