...

2025-10-29 20:00:41 +01:00 · 2025-10-29 19:46:20 +01:00
42 changed files with 984 additions and 861 deletions
--- a/.env.prod.example
+++ b/.env.prod.example
@ -16,5 +16,3 @@ POSTGRES_PORT=
 # MAIL
 EMAIL_HOST_USER=
 EMAIL_HOST_PASSWORD=
 # MATOMO
 MATOMO_SITE_ID
--- a/envipath/settings.py
+++ b/envipath/settings.py
@ -52,6 +52,28 @@ INSTALLED_APPS = [
    "migration",
 ]
 # Add the TENANT providing implementations for
 # Required
 # - Package
 # - Compound (TODO)
 # - CompoundStructure (TODO)
 # Optional
 # - PackageManager (TODO)
 # - GroupManager (TODO)
 # - SettingManager (TODO)
 TENANT = os.environ.get("TENANT", "public")
 INSTALLED_APPS.append(TENANT)
 PACKAGE_IMPLEMENTATION = f"{TENANT}.Package"
 PACKAGE_MODULE_PATH = f"{TENANT}.models.Package"
 def GET_PACKAGE_MODEL():
    from django.apps import apps
    return apps.get_model(TENANT, "Package")
 AUTHENTICATION_BACKENDS = [
    "django.contrib.auth.backends.ModelBackend",
 ]
@ -357,6 +379,3 @@ if MS_ENTRA_ENABLED:
    MS_ENTRA_AUTHORITY = f"https://login.microsoftonline.com/{MS_ENTRA_TENANT_ID}"
    MS_ENTRA_REDIRECT_URI = os.environ["MS_REDIRECT_URI"]
    MS_ENTRA_SCOPES = os.environ.get("MS_SCOPES", "").split(",")
 # Site ID 10 -> beta.envipath.org
 MATOMO_SITE_ID = os.environ.get("MATOMO_SITE_ID", "10")
--- a/epdb/admin.py
+++ b/epdb/admin.py
@ -1,11 +1,11 @@
 from django.contrib import admin
 from django.conf import settings as s
 from .models import (
    User,
    UserPackagePermission,
    Group,
    GroupPackagePermission,
    Package,
    MLRelativeReasoning,
    EnviFormer,
    Compound,
@ -24,6 +24,9 @@ from .models import (
 )
 Package = s.GET_PACKAGE_MODEL()
 class UserAdmin(admin.ModelAdmin):
    list_display = ["username", "email", "is_active"]
--- a/epdb/legacy_api.py
+++ b/epdb/legacy_api.py
@ -1,5 +1,6 @@
 from typing import List, Dict, Optional, Any
 from django.conf import settings as s
 from django.contrib.auth import get_user_model
 from django.http import HttpResponse
 from django.shortcuts import redirect
@ -10,7 +11,6 @@ from .logic import PackageManager, UserManager, SettingManager
 from .models import (
    Compound,
    CompoundStructure,
    Package,
    User,
    UserPackagePermission,
    Rule,
@ -23,6 +23,9 @@ from .models import (
 )
 Package = s.GET_PACKAGE_MODEL()
 def _anonymous_or_real(request):
    if request.user.is_authenticated and not request.user.is_anonymous:
        return request.user
--- a/epdb/logic.py
+++ b/epdb/logic.py
@ -11,7 +11,6 @@ from pydantic import ValidationError
 from epdb.models import (
    User,
    Package,
    UserPackagePermission,
    GroupPackagePermission,
    Permission,
@ -33,6 +32,8 @@ from utilities.misc import PackageImporter, PackageExporter
 logger = logging.getLogger(__name__)
 Package = s.GET_PACKAGE_MODEL()
 class EPDBURLParser:
    UUID_PATTERN = r"[a-f0-9]{8}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{4}-[a-f0-9]{12}"
@ -1542,7 +1543,9 @@ class SPathway(object):
                if sub.app_domain_assessment is None:
                    if self.prediction_setting.model:
                        if self.prediction_setting.model.app_domain:
-                            app_domain_assessment = self.prediction_setting.model.app_domain.assess(sub.smiles)
+                            app_domain_assessment = self.prediction_setting.model.app_domain.assess(
                                sub.smiles
                            )[0]
                            if self.persist is not None:
                                n = self.snode_persist_lookup[sub]
@ -1574,7 +1577,11 @@ class SPathway(object):
                                    app_domain_assessment = None
                                    if self.prediction_setting.model:
                                        if self.prediction_setting.model.app_domain:
-                                            app_domain_assessment = (self.prediction_setting.model.app_domain.assess(c))
+                                            app_domain_assessment = (
                                                self.prediction_setting.model.app_domain.assess(c)[
                                                    0
                                                ]
                                            )
                                    self.smiles_to_node[c] = SNode(
                                        c, sub.depth + 1, app_domain_assessment
--- a/epdb/management/commands/create_ml_models.py
+++ b/epdb/management/commands/create_ml_models.py
@ -2,7 +2,9 @@ from django.conf import settings as s
 from django.core.management.base import BaseCommand
 from django.db import transaction
-from epdb.models import MLRelativeReasoning, EnviFormer, Package
+from epdb.models import EnviFormer, MLRelativeReasoning
 Package = s.GET_PACKAGE_MODEL()
 class Command(BaseCommand):
@ -75,11 +77,13 @@ class Command(BaseCommand):
            return packages
        # Iteratively create models in options["model_names"]
-        print(f"Creating models: {options['model_names']}\n"
+        print(
            f"Creating models: {options['model_names']}\n"
            f"Data packages: {options['data_packages']}\n"
            f"Rule Packages (only for MLRR): {options['rule_packages']}\n"
            f"Eval Packages: {options['eval_packages']}\n"
-              f"Threshold: {options['threshold']:.2f}")
+            f"Threshold: {options['threshold']:.2f}"
        )
        data_packages = decode_packages(options["data_packages"])
        eval_packages = decode_packages(options["eval_packages"])
        rule_packages = decode_packages(options["rule_packages"])
@ -90,7 +94,7 @@ class Command(BaseCommand):
                    pack,
                    data_packages=data_packages,
                    eval_packages=eval_packages,
-                    threshold=options['threshold'],
+                    threshold=options["threshold"],
                    name=f"EnviFormer - {', '.join(options['data_packages'])} - T{options['threshold']:.2f}",
                    description=f"EnviFormer transformer trained on {options['data_packages']} "
                    f"evaluated on {options['eval_packages']}.",
@ -101,7 +105,7 @@ class Command(BaseCommand):
                    rule_packages=rule_packages,
                    data_packages=data_packages,
                    eval_packages=eval_packages,
-                    threshold=options['threshold'],
+                    threshold=options["threshold"],
                    name=f"ECC - {', '.join(options['data_packages'])} - T{options['threshold']:.2f}",
                    description=f"ML Relative Reasoning trained on {options['data_packages']} with rules from "
                    f"{options['rule_packages']} and evaluated on {options['eval_packages']}.",
--- a/epdb/management/commands/load_enviformer.py
+++ b/epdb/management/commands/load_enviformer.py
@ -8,7 +8,9 @@ from django.conf import settings as s
 from django.core.management.base import BaseCommand
 from django.db import transaction
-from epdb.models import EnviFormer, Package
+from epdb.models import EnviFormer
 Package = s.GET_PACKAGE_MODEL()
 class Command(BaseCommand):
--- a/epdb/management/commands/localize_urls.py
+++ b/epdb/management/commands/localize_urls.py
@ -1,8 +1,8 @@
 from django.apps import apps
 from django.conf import settings as s
 from django.core.management.base import BaseCommand
-
+from django.db.models import F, JSONField, TextField, Value
-from django.db.models import F, Value, TextField, JSONField
+from django.db.models.functions import Cast, Replace
 from django.db.models.functions import Replace, Cast
 from epdb.models import EnviPathModel
@ -23,10 +23,13 @@ class Command(BaseCommand):
        )
    def handle(self, *args, **options):
        Package = s.GET_PACKAGE_MODEL()
        print("Localizing urls for Package")
        Package.objects.update(url=Replace(F("url"), Value(options["old"]), Value(options["new"])))
        MODELS = [
            "User",
            "Group",
            "Package",
            "Compound",
            "CompoundStructure",
            "Pathway",
--- a/epdb/migrations/0010_alter_userpackagepermission_package_and_more.py
+++ b/epdb/migrations/0010_alter_userpackagepermission_package_and_more.py
@ -0,0 +1,190 @@
 # Generated by Django 5.2.7 on 2025-10-29 13:32
 import django.db.models.deletion
 from django.db import migrations, models
 class Migration(migrations.Migration):
    dependencies = [
        ("epdb", "0009_joblog"),
        ("public", "0001_initial"),
    ]
    operations = [
        migrations.AlterField(
            model_name="userpackagepermission",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Permission on",
            ),
        ),
        migrations.AlterField(
            model_name="grouppackagepermission",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Permission on",
            ),
        ),
        migrations.AlterField(
            model_name="epmodel",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="rule",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="compound",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="scenario",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="pathway",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="reaction",
            name="package",
            field=models.ForeignKey(
                on_delete=django.db.models.deletion.CASCADE,
                to="public.package",
                verbose_name="Package",
            ),
        ),
        migrations.AlterField(
            model_name="user",
            name="default_package",
            field=models.ForeignKey(
                null=True,
                on_delete=django.db.models.deletion.SET_NULL,
                to="public.package",
                verbose_name="Default Package",
            ),
        ),
        migrations.AlterField(
            model_name="enviformer",
            name="data_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_data_packages",
                to="public.package",
                verbose_name="Data Packages",
            ),
        ),
        migrations.AlterField(
            model_name="enviformer",
            name="eval_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_eval_packages",
                to="public.package",
                verbose_name="Evaluation Packages",
            ),
        ),
        migrations.AlterField(
            model_name="enviformer",
            name="rule_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_rule_packages",
                to="public.package",
                verbose_name="Rule Packages",
            ),
        ),
        migrations.AlterField(
            model_name="mlrelativereasoning",
            name="data_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_data_packages",
                to="public.package",
                verbose_name="Data Packages",
            ),
        ),
        migrations.AlterField(
            model_name="mlrelativereasoning",
            name="eval_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_eval_packages",
                to="public.package",
                verbose_name="Evaluation Packages",
            ),
        ),
        migrations.AlterField(
            model_name="mlrelativereasoning",
            name="rule_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_rule_packages",
                to="public.package",
                verbose_name="Rule Packages",
            ),
        ),
        migrations.AlterField(
            model_name="rulebasedrelativereasoning",
            name="data_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_data_packages",
                to="public.package",
                verbose_name="Data Packages",
            ),
        ),
        migrations.AlterField(
            model_name="rulebasedrelativereasoning",
            name="eval_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_eval_packages",
                to="public.package",
                verbose_name="Evaluation Packages",
            ),
        ),
        migrations.AlterField(
            model_name="rulebasedrelativereasoning",
            name="rule_packages",
            field=models.ManyToManyField(
                related_name="%(app_label)s_%(class)s_rule_packages",
                to="public.package",
                verbose_name="Rule Packages",
            ),
        ),
        migrations.AlterField(
            model_name="setting",
            name="rule_packages",
            field=models.ManyToManyField(
                blank=True,
                related_name="setting_rule_packages",
                to="public.package",
                verbose_name="Setting Rule Packages",
            ),
        ),
        migrations.DeleteModel(
            name="Package",
        ),
    ]
--- a/epdb/models.py
+++ b/epdb/models.py
@ -7,7 +7,7 @@ import secrets
 from abc import abstractmethod
 from collections import defaultdict
 from datetime import datetime
-from typing import Union, List, Optional, Dict, Tuple, Set, Any
+from typing import Union, List, Optional, Dict, Tuple, Set, Any, TYPE_CHECKING
 from uuid import uuid4
 import math
 import joblib
@ -28,11 +28,12 @@ from sklearn.metrics import precision_score, recall_score, jaccard_score
 from sklearn.model_selection import ShuffleSplit
 from utilities.chem import FormatConverter, ProductSet, PredictionResult, IndigoUtils
-from utilities.ml import RuleBasedDataset, ApplicabilityDomainPCA, EnsembleClassifierChain, RelativeReasoning, \
+from utilities.ml import Dataset, ApplicabilityDomainPCA, EnsembleClassifierChain, RelativeReasoning
    EnviFormerDataset, Dataset
 logger = logging.getLogger(__name__)
 if TYPE_CHECKING:
    Package = s.GET_PACKAGE_MODEL()
 ##########################
 # User/Groups/Permission #
@ -46,7 +47,10 @@ class User(AbstractUser):
    )
    url = models.TextField(blank=False, null=True, verbose_name="URL", unique=True)
    default_package = models.ForeignKey(
-        "epdb.Package", verbose_name="Default Package", null=True, on_delete=models.SET_NULL
+        s.PACKAGE_IMPLEMENTATION,
        verbose_name="Default Package",
        null=True,
        on_delete=models.SET_NULL,
    )
    default_group = models.ForeignKey(
        "Group",
@ -236,7 +240,7 @@ class UserPackagePermission(Permission):
    )
    user = models.ForeignKey("User", verbose_name="Permission to", on_delete=models.CASCADE)
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Permission on", on_delete=models.CASCADE
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Permission on", on_delete=models.CASCADE
    )
    class Meta:
@ -252,7 +256,7 @@ class GroupPackagePermission(Permission):
    )
    group = models.ForeignKey("Group", verbose_name="Permission to", on_delete=models.CASCADE)
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Permission on", on_delete=models.CASCADE
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Permission on", on_delete=models.CASCADE
    )
    class Meta:
@ -652,7 +656,7 @@ class License(models.Model):
    image_link = models.URLField(blank=False, null=False, verbose_name="Image link")
-class Package(EnviPathModel):
+class AbstractPackage(EnviPathModel):
    reviewed = models.BooleanField(verbose_name="Reviewstatus", default=False)
    license = models.ForeignKey(
        "epdb.License", on_delete=models.SET_NULL, blank=True, null=True, verbose_name="License"
@ -720,10 +724,13 @@ class Package(EnviPathModel):
        rules = sorted(rules, key=lambda x: x.url)
        return rules
    class Meta:
        abstract = True
 class Compound(EnviPathModel, AliasMixin, ScenarioMixin, ChemicalIdentifierMixin):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    default_structure = models.ForeignKey(
        "CompoundStructure",
@ -773,7 +780,7 @@ class Compound(EnviPathModel, AliasMixin, ScenarioMixin, ChemicalIdentifierMixin
    @staticmethod
    @transaction.atomic
    def create(
-        package: Package, smiles: str, name: str = None, description: str = None, *args, **kwargs
+        package: "Package", smiles: str, name: str = None, description: str = None, *args, **kwargs
    ) -> "Compound":
        if smiles is None or smiles.strip() == "":
            raise ValueError("SMILES is required")
@ -1051,7 +1058,7 @@ class EnzymeLink(EnviPathModel, KEGGIdentifierMixin):
 class Rule(PolymorphicModel, EnviPathModel, AliasMixin, ScenarioMixin):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    # # https://github.com/django-polymorphic/django-polymorphic/issues/229
@ -1157,7 +1164,7 @@ class SimpleAmbitRule(SimpleRule):
    @staticmethod
    @transaction.atomic
    def create(
-        package: Package,
+        package: "Package",
        name: str = None,
        description: str = None,
        smirks: str = None,
@ -1223,6 +1230,7 @@ class SimpleAmbitRule(SimpleRule):
    @property
    def related_reactions(self):
        Package = s.GET_PACKAGE_MODEL()
        qs = Package.objects.filter(reviewed=True)
        return self.reaction_rule.filter(package__in=qs).order_by("name")
@ -1315,7 +1323,7 @@ class SequentialRuleOrdering(models.Model):
 class Reaction(EnviPathModel, AliasMixin, ScenarioMixin, ReactionIdentifierMixin):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    educts = models.ManyToManyField(
        "epdb.CompoundStructure", verbose_name="Educts", related_name="reaction_educts"
@ -1337,7 +1345,7 @@ class Reaction(EnviPathModel, AliasMixin, ScenarioMixin, ReactionIdentifierMixin
    @staticmethod
    @transaction.atomic
    def create(
-        package: Package,
+        package: "Package",
        name: str = None,
        description: str = None,
        educts: Union[List[str], List[CompoundStructure]] = None,
@ -1497,7 +1505,7 @@ class Reaction(EnviPathModel, AliasMixin, ScenarioMixin, ReactionIdentifierMixin
 class Pathway(EnviPathModel, AliasMixin, ScenarioMixin):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    setting = models.ForeignKey(
        "epdb.Setting", verbose_name="Setting", on_delete=models.CASCADE, null=True, blank=True
@ -2053,7 +2061,7 @@ class Edge(EnviPathModel, AliasMixin, ScenarioMixin):
 class EPModel(PolymorphicModel, EnviPathModel):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    def _url(self):
@ -2062,17 +2070,17 @@ class EPModel(PolymorphicModel, EnviPathModel):
 class PackageBasedModel(EPModel):
    rule_packages = models.ManyToManyField(
-        "Package",
+        s.PACKAGE_IMPLEMENTATION,
        verbose_name="Rule Packages",
        related_name="%(app_label)s_%(class)s_rule_packages",
    )
    data_packages = models.ManyToManyField(
-        "Package",
+        s.PACKAGE_IMPLEMENTATION,
        verbose_name="Data Packages",
        related_name="%(app_label)s_%(class)s_data_packages",
    )
    eval_packages = models.ManyToManyField(
-        "Package",
+        s.PACKAGE_IMPLEMENTATION,
        verbose_name="Evaluation Packages",
        related_name="%(app_label)s_%(class)s_eval_packages",
    )
@ -2176,7 +2184,7 @@ class PackageBasedModel(EPModel):
        applicable_rules = self.applicable_rules
        reactions = list(self._get_reactions())
-        ds = RuleBasedDataset.generate_dataset(reactions, applicable_rules, educts_only=True)
+        ds = Dataset.generate_dataset(reactions, applicable_rules, educts_only=True)
        end = datetime.now()
        logger.debug(f"build_dataset took {(end - start).total_seconds()} seconds")
@ -2185,7 +2193,7 @@ class PackageBasedModel(EPModel):
        ds.save(f)
        return ds
-    def load_dataset(self) -> "Dataset | RuleBasedDataset | EnviFormerDataset":
+    def load_dataset(self) -> "Dataset":
        ds_path = os.path.join(s.MODEL_DIR, f"{self.uuid}_ds.pkl")
        return Dataset.load(ds_path)
@ -2226,7 +2234,7 @@ class PackageBasedModel(EPModel):
        self.model_status = self.BUILT_NOT_EVALUATED
        self.save()
-    def evaluate_model(self, multigen: bool, eval_packages: List["Package"] = None, **kwargs):
+    def evaluate_model(self, multigen: bool, eval_packages: List["Package"] = None):
        if self.model_status != self.BUILT_NOT_EVALUATED:
            raise ValueError(f"Can't evaluate a model in state {self.model_status}!")
@ -2344,37 +2352,37 @@ class PackageBasedModel(EPModel):
            eval_reactions = list(
                Reaction.objects.filter(package__in=self.eval_packages.all()).distinct()
            )
-            ds = RuleBasedDataset.generate_dataset(eval_reactions, self.applicable_rules, educts_only=True)
+            ds = Dataset.generate_dataset(eval_reactions, self.applicable_rules, educts_only=True)
            if isinstance(self, RuleBasedRelativeReasoning):
-                X = ds.X(exclude_id_col=False, na_replacement=None).to_numpy()
+                X = np.array(ds.X(exclude_id_col=False, na_replacement=None))
-                y = ds.y(na_replacement=np.nan).to_numpy()
+                y = np.array(ds.y(na_replacement=np.nan))
            else:
-                X = ds.X(na_replacement=np.nan).to_numpy()
+                X = np.array(ds.X(na_replacement=np.nan))
-                y = ds.y(na_replacement=np.nan).to_numpy()
+                y = np.array(ds.y(na_replacement=np.nan))
            single_gen_result = evaluate_sg(self.model, X, y, np.arange(len(X)), self.threshold)
            self.eval_results = self.compute_averages([single_gen_result])
        else:
            ds = self.load_dataset()
            if isinstance(self, RuleBasedRelativeReasoning):
-                X = ds.X(exclude_id_col=False, na_replacement=None).to_numpy()
+                X = np.array(ds.X(exclude_id_col=False, na_replacement=None))
-                y = ds.y(na_replacement=np.nan).to_numpy()
+                y = np.array(ds.y(na_replacement=np.nan))
            else:
-                X = ds.X(na_replacement=np.nan).to_numpy()
+                X = np.array(ds.X(na_replacement=np.nan))
-                y = ds.y(na_replacement=np.nan).to_numpy()
+                y = np.array(ds.y(na_replacement=np.nan))
-            n_splits = kwargs.get("n_splits", 20)
+            n_splits = 20
            shuff = ShuffleSplit(n_splits=n_splits, test_size=0.25, random_state=42)
            splits = list(shuff.split(X))
            from joblib import Parallel, delayed
-            models = Parallel(n_jobs=min(10, len(splits)))(
+            models = Parallel(n_jobs=10)(
                delayed(train_func)(X, y, train_index, self._model_args())
                for train_index, _ in splits
            )
-            evaluations = Parallel(n_jobs=min(10, len(splits)))(
+            evaluations = Parallel(n_jobs=10)(
                delayed(evaluate_sg)(model, X, y, test_index, self.threshold)
                for model, (_, test_index) in zip(models, splits)
            )
@ -2586,11 +2594,11 @@ class RuleBasedRelativeReasoning(PackageBasedModel):
        return rbrr
-    def _fit_model(self, ds: RuleBasedDataset):
+    def _fit_model(self, ds: Dataset):
        X, y = ds.X(exclude_id_col=False, na_replacement=None), ds.y(na_replacement=None)
        model = RelativeReasoning(
            start_index=ds.triggered()[0],
-            end_index=ds.triggered()[-1],
+            end_index=ds.triggered()[1],
        )
        model.fit(X, y)
        return model
@ -2600,7 +2608,7 @@ class RuleBasedRelativeReasoning(PackageBasedModel):
        return {
            "clz": "RuleBaseRelativeReasoning",
            "start_index": ds.triggered()[0],
-            "end_index": ds.triggered()[-1],
+            "end_index": ds.triggered()[1],
        }
    def _save_model(self, model):
@ -2688,11 +2696,11 @@ class MLRelativeReasoning(PackageBasedModel):
        return mlrr
-    def _fit_model(self, ds: RuleBasedDataset):
+    def _fit_model(self, ds: Dataset):
        X, y = ds.X(na_replacement=np.nan), ds.y(na_replacement=np.nan)
        model = EnsembleClassifierChain(**s.DEFAULT_MODEL_PARAMS)
-        model.fit(X.to_numpy(), y.to_numpy())
+        model.fit(X, y)
        return model
    def _model_args(self):
@ -2715,7 +2723,7 @@ class MLRelativeReasoning(PackageBasedModel):
        start = datetime.now()
        ds = self.load_dataset()
        classify_ds, classify_prods = ds.classification_dataset([smiles], self.applicable_rules)
-        pred = self.model.predict_proba(classify_ds.X().to_numpy())
+        pred = self.model.predict_proba(classify_ds.X())
        res = MLRelativeReasoning.combine_products_and_probs(
            self.applicable_rules, pred[0], classify_prods[0]
@ -2760,9 +2768,7 @@ class ApplicabilityDomain(EnviPathModel):
    @cached_property
    def training_set_probs(self):
-        ds = self.model.load_dataset()
+        return joblib.load(os.path.join(s.MODEL_DIR, f"{self.model.uuid}_train_probs.pkl"))
        col_ids = ds.block_indices("prob")
        return ds[:, col_ids]
    def build(self):
        ds = self.model.load_dataset()
@ -2770,9 +2776,9 @@ class ApplicabilityDomain(EnviPathModel):
        start = datetime.now()
        # Get Trainingset probs and dump them as they're required when using the app domain
-        probs = self.model.model.predict_proba(ds.X().to_numpy())
+        probs = self.model.model.predict_proba(ds.X())
-        ds.add_probs(probs)
+        f = os.path.join(s.MODEL_DIR, f"{self.model.uuid}_train_probs.pkl")
-        ds.save(os.path.join(s.MODEL_DIR, f"{self.model.uuid}_ds.pkl"))
+        joblib.dump(probs, f)
        ad = ApplicabilityDomainPCA(num_neighbours=self.num_neighbours)
        ad.build(ds)
@ -2795,19 +2801,16 @@ class ApplicabilityDomain(EnviPathModel):
        joblib.dump(ad, f)
    def assess(self, structure: Union[str, "CompoundStructure"]):
        return self.assess_batch([structure])[0]
    def assess_batch(self, structures: List["CompoundStructure | str"]):
        ds = self.model.load_dataset()
-        smiles = []
+        if isinstance(structure, CompoundStructure):
-        for struct in structures:
+            smiles = structure.smiles
            if isinstance(struct, CompoundStructure):
                smiles.append(structures.smiles)
        else:
-                smiles.append(structures)
+            smiles = structure
-        assessment_ds, assessment_prods = ds.classification_dataset(structures, self.model.applicable_rules)
+        assessment_ds, assessment_prods = ds.classification_dataset(
            [structure], self.model.applicable_rules
        )
        # qualified_neighbours_per_rule is a nested dictionary structured as:
        #   {
@ -2820,46 +2823,82 @@ class ApplicabilityDomain(EnviPathModel):
        # it identifies all training structures that have the same trigger reaction activated (i.e., value 1).
        # This is used to find "qualified neighbours" — training examples that share the same triggered feature
        # with a given assessment structure under a particular rule.
-        qualified_neighbours_per_rule: Dict = {}
+        qualified_neighbours_per_rule: Dict[int, Dict[int, List[int]]] = defaultdict(
            lambda: defaultdict(list)
        )
-        import polars as pl
+        for rule_idx, feature_index in enumerate(range(*assessment_ds.triggered())):
-        # Select only the triggered columns
+            feature = ds.columns[feature_index]
-        for i, row in enumerate(assessment_ds[:, assessment_ds.triggered()].iter_rows(named=True)):
+            if feature.startswith("trig_"):
-            # Find the rules the structure triggers. For each rule, filter the training dataset to rows that also
+                # TODO unroll loop
-            # trigger that rule.
+                for i, cx in enumerate(assessment_ds.X(exclude_id_col=False)):
-            train_trig = {trig_uuid.split("_")[-1]: ds.filter(pl.col(trig_uuid).eq(1))
+                    if int(cx[feature_index]) == 1:
-                          for trig_uuid, value in row.items() if value == 1}
+                        for j, tx in enumerate(ds.X(exclude_id_col=False)):
-            qualified_neighbours_per_rule[i] = train_trig
+                            if int(tx[feature_index]) == 1:
-        rule_to_i = {str(r.uuid): i for i, r in enumerate(self.model.applicable_rules)}
+                                qualified_neighbours_per_rule[i][rule_idx].append(j)
        probs = self.training_set_probs
        # preds = self.model.model.predict_proba(assessment_ds.X())
        preds = self.model.combine_products_and_probs(
            self.model.applicable_rules,
-            self.model.model.predict_proba(assessment_ds.X().to_numpy())[0],
+            self.model.model.predict_proba(assessment_ds.X())[0],
            assessment_prods[0],
        )
        assessments = list()
        # loop through our assessment dataset
-        for i, instance in enumerate(assessment_ds[:, assessment_ds.struct_features()]):
+        for i, instance in enumerate(assessment_ds):
            rule_reliabilities = dict()
            local_compatibilities = dict()
            neighbours_per_rule = dict()
            neighbor_probs_per_rule = dict()
            # loop through rule indices together with the collected neighbours indices from train dataset
-            for rule_uuid, train_instances in qualified_neighbours_per_rule[i].items():
+            for rule_idx, vals in qualified_neighbours_per_rule[i].items():
-                # compute tanimoto distance for all neighbours and add to dataset
+                # collect the train dataset instances and store it along with the index (a.k.a. row number) of the
-                dists = self._compute_distances(assessment_ds[i, assessment_ds.struct_features()].to_numpy()[0],
+                # train dataset
-                                                train_instances[:, train_instances.struct_features()].to_numpy())
+                train_instances = []
-                train_instances = train_instances.with_columns(dist=pl.Series(dists))
+                for v in vals:
                    train_instances.append((v, ds.at(v)))
                # sf is a tuple with start/end index of the features
                sf = ds.struct_features()
                # compute tanimoto distance for all neighbours
                # result ist a list of tuples with train index and computed distance
                dists = self._compute_distances(
                    instance.X()[0][sf[0] : sf[1]],
                    [ti[1].X()[0][sf[0] : sf[1]] for ti in train_instances],
                )
                dists_with_index = list()
                for ti, dist in zip(train_instances, dists):
                    dists_with_index.append((ti[0], dist[1]))
                #  sort them in a descending way and take at most `self.num_neighbours`
-                train_instances = train_instances.sort("dist", descending=True)[:self.num_neighbours]
+                dists_with_index = sorted(dists_with_index, key=lambda x: x[1], reverse=True)
                dists_with_index = dists_with_index[: self.num_neighbours]
                # compute average distance
-                rule_reliabilities[rule_uuid] = train_instances.select(pl.mean("dist")).fill_nan(0.0).item()
+                rule_reliabilities[rule_idx] = (
                    sum([d[1] for d in dists_with_index]) / len(dists_with_index)
                    if len(dists_with_index) > 0
                    else 0.0
                )
                # for local_compatibility we'll need the datasets for the indices having the highest similarity
-                local_compatibilities[rule_uuid] = self._compute_compatibility(rule_uuid, train_instances)
+                neighbour_datasets = [(d[0], ds.at(d[0])) for d in dists_with_index]
-                neighbours_per_rule[rule_uuid] = list(CompoundStructure.objects.filter(uuid__in=train_instances["structure_id"]))
+                local_compatibilities[rule_idx] = self._compute_compatibility(
-                neighbor_probs_per_rule[rule_uuid] = train_instances[f"prob_{rule_uuid}"].to_list()
+                    rule_idx, probs, neighbour_datasets
                )
                neighbours_per_rule[rule_idx] = [
                    CompoundStructure.objects.get(uuid=ds[1].structure_id())
                    for ds in neighbour_datasets
                ]
                neighbor_probs_per_rule[rule_idx] = [
                    probs[d[0]][rule_idx] for d in dists_with_index
                ]
            ad_res = {
                "ad_params": {
@ -2870,21 +2909,23 @@ class ApplicabilityDomain(EnviPathModel):
                    "local_compatibility_threshold": self.local_compatibilty_threshold,
                },
                "assessment": {
-                    "smiles": smiles[i],
+                    "smiles": smiles,
-                    "inside_app_domain": self.pca.is_applicable(assessment_ds[i])[0],
+                    "inside_app_domain": self.pca.is_applicable(instance)[0],
                },
            }
            transformations = list()
-            for rule_uuid in rule_reliabilities.keys():
+            for rule_idx in rule_reliabilities.keys():
-                rule = Rule.objects.get(uuid=rule_uuid)
+                rule = Rule.objects.get(
                    uuid=instance.columns[instance.observed()[0] + rule_idx].replace("obs_", "")
                )
                rule_data = rule.simple_json()
                rule_data["image"] = f"{rule.url}?image=svg"
                neighbors = []
                for n, n_prob in zip(
-                    neighbours_per_rule[rule_uuid], neighbor_probs_per_rule[rule_uuid]
+                    neighbours_per_rule[rule_idx], neighbor_probs_per_rule[rule_idx]
                ):
                    neighbor = n.simple_json()
                    neighbor["image"] = f"{n.url}?image=svg"
@ -2901,14 +2942,14 @@ class ApplicabilityDomain(EnviPathModel):
                transformation = {
                    "rule": rule_data,
-                    "reliability": rule_reliabilities[rule_uuid],
+                    "reliability": rule_reliabilities[rule_idx],
                    # We're setting it here to False, as we don't know whether "assess" is called during pathway
                    # prediction or from Model Page. For persisted Nodes this field will be overwritten at runtime
                    "is_predicted": False,
-                    "local_compatibility": local_compatibilities[rule_uuid],
+                    "local_compatibility": local_compatibilities[rule_idx],
-                    "probability": preds[rule_to_i[rule_uuid]].probability,
+                    "probability": preds[rule_idx].probability,
                    "transformation_products": [
-                        x.product_set for x in preds[rule_to_i[rule_uuid]].product_sets
+                        x.product_set for x in preds[rule_idx].product_sets
                    ],
                    "times_triggered": ds.times_triggered(str(rule.uuid)),
                    "neighbors": neighbors,
@ -2926,21 +2967,32 @@ class ApplicabilityDomain(EnviPathModel):
    def _compute_distances(classify_instance: List[int], train_instances: List[List[int]]):
        from utilities.ml import tanimoto_distance
-        distances = [tanimoto_distance(classify_instance, train) for train in train_instances]
+        distances = [
            (i, tanimoto_distance(classify_instance, train))
            for i, train in enumerate(train_instances)
        ]
        return distances
-    def _compute_compatibility(self, rule_idx: int, neighbours: "RuleBasedDataset"):
+    @staticmethod
    def _compute_compatibility(rule_idx: int, preds, neighbours: List[Tuple[int, "Dataset"]]):
        tp, tn, fp, fn = 0.0, 0.0, 0.0, 0.0
        accuracy = 0.0
-        import polars as pl
+
-        obs_pred = neighbours.select(obs=pl.col(f"obs_{rule_idx}").cast(pl.Boolean),
+        for n in neighbours:
-                                     pred=pl.col(f"prob_{rule_idx}") >= self.model.threshold)
+            obs = n[1].y()[0][rule_idx]
-        # Compute tp, tn, fp, fn using polars expressions
+            pred = preds[n[0]][rule_idx]
-        tp = obs_pred.filter((pl.col("obs")) & (pl.col("pred"))).height
+            if obs and pred:
-        tn = obs_pred.filter((~pl.col("obs")) & (~pl.col("pred"))).height
+                tp += 1
-        fp = obs_pred.filter((~pl.col("obs")) & (pl.col("pred"))).height
+            elif not obs and pred:
-        fn = obs_pred.filter((pl.col("obs")) & (~pl.col("pred"))).height
+                fp += 1
            elif obs and not pred:
                fn += 1
            else:
                tn += 1
            # Jaccard Index
            if tp + tn > 0.0:
                accuracy = (tp + tn) / (tp + tn + fp + fn)
        return accuracy
@ -3041,24 +3093,44 @@ class EnviFormer(PackageBasedModel):
        self.save()
        start = datetime.now()
-        ds = EnviFormerDataset.generate_dataset(self._get_reactions())
+        # Standardise reactions for the training data, EnviFormer ignores stereochemistry currently
        co2 = {"C(=O)=O", "O=C=O"}
        ds = []
        for reaction in self._get_reactions():
            educts = ".".join(
                [
                    FormatConverter.standardize(smile.smiles, remove_stereo=True)
                    for smile in reaction.educts.all()
                ]
            )
            products = ".".join(
                [
                    FormatConverter.standardize(smile.smiles, remove_stereo=True)
                    for smile in reaction.products.all()
                ]
            )
            if products not in co2:
                ds.append(f"{educts}>>{products}")
        end = datetime.now()
        logger.debug(f"build_dataset took {(end - start).total_seconds()} seconds")
        f = os.path.join(s.MODEL_DIR, f"{self.uuid}_ds.json")
-        ds.save(f)
+        with open(f, "w") as d_file:
            json.dump(ds, d_file)
        return ds
-    def load_dataset(self):
+    def load_dataset(self) -> "Dataset":
        ds_path = os.path.join(s.MODEL_DIR, f"{self.uuid}_ds.json")
-        return EnviFormerDataset.load(ds_path)
+        with open(ds_path) as d_file:
            ds = json.load(d_file)
        return ds
    def _fit_model(self, ds):
        # Call to enviFormer's fine_tune function and return the model
        from enviformer.finetune import fine_tune
        start = datetime.now()
-        model = fine_tune(ds.X(), ds.y(), s.MODEL_DIR, str(self.uuid), device=s.ENVIFORMER_DEVICE)
+        model = fine_tune(ds, s.MODEL_DIR, str(self.uuid), device=s.ENVIFORMER_DEVICE)
        end = datetime.now()
        logger.debug(f"EnviFormer finetuning took {(end - start).total_seconds():.2f} seconds")
        return model
@ -3074,7 +3146,7 @@ class EnviFormer(PackageBasedModel):
        args = {"clz": "EnviFormer"}
        return args
-    def evaluate_model(self, multigen: bool, eval_packages: List["Package"] = None, **kwargs):
+    def evaluate_model(self, multigen: bool, eval_packages: List["Package"] = None):
        if self.model_status != self.BUILT_NOT_EVALUATED:
            raise ValueError(f"Can't evaluate a model in state {self.model_status}!")
@ -3089,20 +3161,21 @@ class EnviFormer(PackageBasedModel):
        self.model_status = self.EVALUATING
        self.save()
-        def evaluate_sg(test_ds, predictions, model_thresh):
+        def evaluate_sg(test_reactions, predictions, model_thresh):
            # Group the true products of reactions with the same reactant together
            assert len(test_ds) == len(predictions)
            true_dict = {}
-            for r in test_ds:
+            for r in test_reactions:
-                reactant, true_product_set = r
+                reactant, true_product_set = r.split(">>")
                true_product_set = {p for p in true_product_set.split(".")}
                true_dict[reactant] = true_dict.setdefault(reactant, []) + [true_product_set]
            assert len(test_reactions) == len(predictions)
            assert sum(len(v) for v in true_dict.values()) == len(test_reactions)
            # Group the predicted products of reactions with the same reactant together
            pred_dict = {}
            for k, pred in enumerate(predictions):
                pred_smiles, pred_proba = zip(*pred.items())
-                reactant, true_product = test_ds[k, "educts"], test_ds[k, "products"]
+                reactant, true_product = test_reactions[k].split(">>")
                pred_dict.setdefault(reactant, {"predict": [], "scores": []})
                for smiles, proba in zip(pred_smiles, pred_proba):
                    smiles = set(smiles.split("."))
@ -3137,7 +3210,7 @@ class EnviFormer(PackageBasedModel):
                                break
            # Recall is TP (correct) / TP + FN (len(test_reactions))
-            rec = {f"{k:.2f}": v / len(test_ds) for k, v in correct.items()}
+            rec = {f"{k:.2f}": v / len(test_reactions) for k, v in correct.items()}
            # Precision is TP (correct) / TP + FP (predicted)
            prec = {
                f"{k:.2f}": v / predicted[k] if predicted[k] > 0 else 0 for k, v in correct.items()
@ -3216,32 +3289,47 @@ class EnviFormer(PackageBasedModel):
        # If there are eval packages perform single generation evaluation on them instead of random splits
        if self.eval_packages.count() > 0:
-            ds = EnviFormerDataset.generate_dataset(Reaction.objects.filter(
+            ds = []
-                package__in=self.eval_packages.all()).distinct())
+            for reaction in Reaction.objects.filter(
-            test_result = self.model.predict_batch(ds.X())
+                package__in=self.eval_packages.all()
            ).distinct():
                educts = ".".join(
                    [
                        FormatConverter.standardize(smile.smiles, remove_stereo=True)
                        for smile in reaction.educts.all()
                    ]
                )
                products = ".".join(
                    [
                        FormatConverter.standardize(smile.smiles, remove_stereo=True)
                        for smile in reaction.products.all()
                    ]
                )
                ds.append(f"{educts}>>{products}")
            test_result = self.model.predict_batch([smirk.split(">>")[0] for smirk in ds])
            single_gen_result = evaluate_sg(ds, test_result, self.threshold)
            self.eval_results = self.compute_averages([single_gen_result])
        else:
            from enviformer.finetune import fine_tune
            ds = self.load_dataset()
-            n_splits = kwargs.get("n_splits", 20)
+            n_splits = 20
            shuff = ShuffleSplit(n_splits=n_splits, test_size=0.1, random_state=42)
            # Single gen eval is done in one loop of train then evaluate rather than storing all n_splits trained models
            # this helps reduce the memory footprint.
            single_gen_results = []
            for split_id, (train_index, test_index) in enumerate(shuff.split(ds)):
-                train = ds[train_index]
+                train = [ds[i] for i in train_index]
-                test = ds[test_index]
+                test = [ds[i] for i in test_index]
                start = datetime.now()
-                model = fine_tune(train.X(), train.y(), s.MODEL_DIR, str(split_id), device=s.ENVIFORMER_DEVICE)
+                model = fine_tune(train, s.MODEL_DIR, str(split_id), device=s.ENVIFORMER_DEVICE)
                end = datetime.now()
                logger.debug(
                    f"EnviFormer finetuning took {(end - start).total_seconds():.2f} seconds"
                )
                model.to(s.ENVIFORMER_DEVICE)
-                test_result = model.predict_batch(test.X())
+                test_result = model.predict_batch([smirk.split(">>")[0] for smirk in test])
                single_gen_results.append(evaluate_sg(test, test_result, self.threshold))
            self.eval_results = self.compute_averages(single_gen_results)
@ -3312,15 +3400,31 @@ class EnviFormer(PackageBasedModel):
                    for pathway in train_pathways:
                        for reaction in pathway.edges:
                            reaction = reaction.edge_label
-                            if any([educt in test_educts for educt in reaction_to_educts[str(reaction.uuid)]]):
+                            if any(
                                [
                                    educt in test_educts
                                    for educt in reaction_to_educts[str(reaction.uuid)]
                                ]
                            ):
                                overlap += 1
                                continue
-                            train_reactions.append(reaction)
+                            educts = ".".join(
-                    train_ds = EnviFormerDataset.generate_dataset(train_reactions)
+                                [
                                    FormatConverter.standardize(smile.smiles, remove_stereo=True)
                                    for smile in reaction.educts.all()
                                ]
                            )
                            products = ".".join(
                                [
                                    FormatConverter.standardize(smile.smiles, remove_stereo=True)
                                    for smile in reaction.products.all()
                                ]
                            )
                            train_reactions.append(f"{educts}>>{products}")
                    logging.debug(
                        f"{overlap} compounds had to be removed from multigen split due to overlap within pathways"
                    )
-                    model = fine_tune(train_ds.X(), train_ds.y(), s.MODEL_DIR, f"mg_{split_id}")
+                    model = fine_tune(train_reactions, s.MODEL_DIR, f"mg_{split_id}")
                    multi_gen_results.append(evaluate_mg(model, test_pathways, self.threshold))
                self.eval_results.update(
@ -3344,7 +3448,7 @@ class PluginModel(EPModel):
 class Scenario(EnviPathModel):
    package = models.ForeignKey(
-        "epdb.Package", verbose_name="Package", on_delete=models.CASCADE, db_index=True
+        s.PACKAGE_IMPLEMENTATION, verbose_name="Package", on_delete=models.CASCADE, db_index=True
    )
    scenario_date = models.CharField(max_length=256, null=False, blank=False, default="No date")
    scenario_type = models.CharField(
@ -3495,7 +3599,7 @@ class Setting(EnviPathModel):
    )
    rule_packages = models.ManyToManyField(
-        "Package",
+        s.PACKAGE_IMPLEMENTATION,
        verbose_name="Setting Rule Packages",
        related_name="setting_rule_packages",
        blank=True,
--- a/epdb/tasks.py
+++ b/epdb/tasks.py
@ -7,9 +7,12 @@ from uuid import uuid4
 from celery import shared_task
 from celery.utils.functional import LRUCache
 from django.conf import settings as s
 from epdb.logic import SPathway
-from epdb.models import EPModel, JobLog, Node, Package, Pathway, Rule, Setting, User, Edge
+from epdb.models import Edge, EPModel, JobLog, Node, Pathway, Rule, Setting, User
 Package = s.GET_PACKAGE_MODEL()
 logger = logging.getLogger(__name__)
 ML_CACHE = LRUCache(3)  # Cache the three most recent ML models to reduce load times.
--- a/epdb/views.py
+++ b/epdb/views.py
@ -1,11 +1,11 @@
 import json
 import logging
-from typing import List, Dict, Any
+from typing import Any, Dict, List
 from django.conf import settings as s
 from django.contrib.auth import get_user_model
-from django.http import JsonResponse, HttpResponse, HttpResponseNotAllowed, HttpResponseBadRequest
+from django.http import HttpResponse, HttpResponseBadRequest, HttpResponseNotAllowed, JsonResponse
-from django.shortcuts import render, redirect
+from django.shortcuts import redirect, render
 from django.urls import reverse
 from django.views.decorators.csrf import csrf_exempt
 from envipy_additional_information import NAME_MAPPING
@ -14,42 +14,43 @@ from oauth2_provider.decorators import protected_resource
 from utilities.chem import FormatConverter, IndigoUtils
 from utilities.decorators import package_permission_required
 from utilities.misc import HTMLGenerator
 from .logic import (
    EPDBURLParser,
    GroupManager,
    PackageManager,
    UserManager,
    SettingManager,
    SearchManager,
-    EPDBURLParser,
+    SettingManager,
    UserManager,
 )
 from .models import (
-    Package,
+    APIToken,
    GroupPackagePermission,
    Group,
    CompoundStructure,
    Compound,
    CompoundStructure,
    Edge,
    EnviFormer,
    EnzymeLink,
    EPModel,
    ExternalDatabase,
    ExternalIdentifier,
    Group,
    GroupPackagePermission,
    JobLog,
    License,
    MLRelativeReasoning,
    Node,
    Pathway,
    Permission,
    Reaction,
    Rule,
    Pathway,
    Node,
    EPModel,
    EnviFormer,
    MLRelativeReasoning,
    RuleBasedRelativeReasoning,
    Scenario,
    SimpleAmbitRule,
    APIToken,
    UserPackagePermission,
    Permission,
    License,
    User,
-    Edge,
+    UserPackagePermission,
    ExternalDatabase,
    ExternalIdentifier,
    EnzymeLink,
    JobLog,
 )
 Package = s.GET_PACKAGE_MODEL()
 logger = logging.getLogger(__name__)
@ -82,8 +83,7 @@ def login(request):
        return render(request, "static/login.html", context)
    elif request.method == "POST":
-        from django.contrib.auth import authenticate
+        from django.contrib.auth import authenticate, login
        from django.contrib.auth import login
        username = request.POST.get("username")
        password = request.POST.get("password")
@ -237,7 +237,6 @@ def get_base_context(request, for_user=None) -> Dict[str, Any]:
            "enabled_features": s.FLAGS,
            "debug": s.DEBUG,
            "external_databases": ExternalDatabase.get_databases(),
            "site_id": s.MATOMO_SITE_ID,
        },
    }
@ -833,7 +832,7 @@ def package_models(request, package_uuid):
                request, "Invalid model type.", f'Model type "{model_type}" is not supported."'
            )
-        from .tasks import dispatch, build_model
+        from .tasks import build_model, dispatch
        dispatch(current_user, build_model, mod.pk)
@ -892,7 +891,7 @@ def package_model(request, package_uuid, model_uuid):
                return JsonResponse(res, safe=False)
            else:
-                app_domain_assessment = current_model.app_domain.assess(stand_smiles)
+                app_domain_assessment = current_model.app_domain.assess(stand_smiles)[0]
                return JsonResponse(app_domain_assessment, safe=False)
        context = get_base_context(request)
@ -2326,9 +2325,9 @@ def package_scenarios(request, package_uuid):
        context["unreviewed_objects"] = unreviewed_scenario_qs
        from envipy_additional_information import (
            SEDIMENT_ADDITIONAL_INFORMATION,
            SLUDGE_ADDITIONAL_INFORMATION,
            SOIL_ADDITIONAL_INFORMATION,
            SEDIMENT_ADDITIONAL_INFORMATION,
        )
        context["scenario_types"] = {
--- a/fixtures/test_fixtures.jsonl.gz
+++ b/fixtures/test_fixtures.jsonl.gz
--- a/fixtures/test_fixtures_incl_model.jsonl.gz
+++ b/fixtures/test_fixtures_incl_model.jsonl.gz
--- a/migration/views.py
+++ b/migration/views.py
@ -1,22 +1,19 @@
 import gzip
 import json
 import logging
 import os.path
 from datetime import datetime
 from django.conf import settings as s
 from django.http import HttpResponseNotAllowed
 from django.shortcuts import render
 from epdb.logic import PackageManager
 from epdb.models import Rule, SimpleAmbitRule, Package, CompoundStructure
 from epdb.views import get_base_context, _anonymous_or_real
 from utilities.chem import FormatConverter
 from rdkit import Chem
 from rdkit.Chem.MolStandardize import rdMolStandardize
 from epdb.models import CompoundStructure, Rule, SimpleAmbitRule
 from epdb.views import get_base_context
 from utilities.chem import FormatConverter
 Package = s.GET_PACKAGE_MODEL()
 logger = logging.getLogger(__name__)
@ -59,9 +56,7 @@ def run_both_engines(SMILES, SMIRKS):
        set(
            [
                normalize_smiles(str(x))
-                for x in FormatConverter.sanitize_smiles(
+                for x in FormatConverter.sanitize_smiles([str(s) for s in all_rdkit_prods])[0]
                    [str(s) for s in all_rdkit_prods]
                )[0]
            ]
        )
    )
@ -85,8 +80,7 @@ def migration(request):
                url="http://localhost:8000/package/32de3cf4-e3e6-4168-956e-32fa5ddb0ce1"
            )
            ALL_SMILES = [
-                cs.smiles
+                cs.smiles for cs in CompoundStructure.objects.filter(compound__package=BBD)
                for cs in CompoundStructure.objects.filter(compound__package=BBD)
            ]
            RULES = SimpleAmbitRule.objects.filter(package=BBD)
@ -142,9 +136,7 @@ def migration(request):
            )
        for r in migration_status["results"]:
-            r["detail_url"] = r["detail_url"].replace(
+            r["detail_url"] = r["detail_url"].replace("http://localhost:8000", s.SERVER_URL)
                "http://localhost:8000", s.SERVER_URL
            )
        context.update(**migration_status)
@ -152,8 +144,6 @@ def migration(request):
 def migration_detail(request, package_uuid, rule_uuid):
    current_user = _anonymous_or_real(request)
    if request.method == "GET":
        context = get_base_context(request)
@ -235,9 +225,7 @@ def compare(request):
        context["smirks"] = (
            "[#1,#6:6][#7;X3;!$(NC1CC1)!$([N][C]=O)!$([!#8]CNC=O):1]([#1,#6:7])[#6;A;X4:2][H:3]>>[#1,#6:6][#7;X3:1]([#1,#6:7])[H:3].[#6;A:2]=O"
        )
-        context["smiles"] = (
+        context["smiles"] = "C(CC(=O)N[C@@H](CS[Se-])C(=O)NCC(=O)[O-])[C@@H](C(=O)[O-])N"
            "C(CC(=O)N[C@@H](CS[Se-])C(=O)NCC(=O)[O-])[C@@H](C(=O)[O-])N"
        )
        return render(request, "compare.html", context)
    elif request.method == "POST":
--- a/public/init.py
+++ b/public/init.py
--- a/public/admin.py
+++ b/public/admin.py
@ -0,0 +1 @@
 # Register your models here.
--- a/public/apps.py
+++ b/public/apps.py
@ -0,0 +1,6 @@
 from django.apps import AppConfig
 class PublicConfig(AppConfig):
    default_auto_field = "django.db.models.BigAutoField"
    name = "public"
--- a/public/migrations/0001_initial.py
+++ b/public/migrations/0001_initial.py
@ -0,0 +1,56 @@
 # Generated by Django 5.2.7 on 2025-10-29 13:32
 import django.utils.timezone
 import model_utils.fields
 import uuid
 from django.db import migrations, models
 class Migration(migrations.Migration):
    initial = True
    dependencies = []
    operations = [
        migrations.CreateModel(
            name="Package",
            fields=[
                (
                    "id",
                    models.BigAutoField(
                        auto_created=True, primary_key=True, serialize=False, verbose_name="ID"
                    ),
                ),
                (
                    "created",
                    model_utils.fields.AutoCreatedField(
                        default=django.utils.timezone.now, editable=False, verbose_name="created"
                    ),
                ),
                (
                    "modified",
                    model_utils.fields.AutoLastModifiedField(
                        default=django.utils.timezone.now, editable=False, verbose_name="modified"
                    ),
                ),
                (
                    "uuid",
                    models.UUIDField(
                        default=uuid.uuid4, unique=True, verbose_name="UUID of this object"
                    ),
                ),
                ("name", models.TextField(default="no name", verbose_name="Name")),
                (
                    "description",
                    models.TextField(default="no description", verbose_name="Descriptions"),
                ),
                ("url", models.TextField(null=True, unique=True, verbose_name="URL")),
                ("kv", models.JSONField(blank=True, default=dict, null=True)),
                ("reviewed", models.BooleanField(default=False, verbose_name="Reviewstatus")),
            ],
            options={
                "db_table": "epdb_package",
                "managed": False,
            },
        ),
    ]
--- a/public/migrations/0002_alter_package_options.py
+++ b/public/migrations/0002_alter_package_options.py
@ -0,0 +1,16 @@
 # Generated by Django 5.2.7 on 2025-10-29 18:39
 from django.db import migrations
 class Migration(migrations.Migration):
    dependencies = [
        ("public", "0001_initial"),
    ]
    operations = [
        migrations.AlterModelOptions(
            name="package",
            options={},
        ),
    ]
--- a/public/migrations/0003_package_license.py
+++ b/public/migrations/0003_package_license.py
@ -0,0 +1,25 @@
 # Generated by Django 5.2.7 on 2025-10-29 18:40
 import django.db.models.deletion
 from django.db import migrations, models
 class Migration(migrations.Migration):
    dependencies = [
        ("epdb", "0010_alter_userpackagepermission_package_and_more"),
        ("public", "0002_alter_package_options"),
    ]
    operations = [
        migrations.AddField(
            model_name="package",
            name="license",
            field=models.ForeignKey(
                blank=True,
                null=True,
                on_delete=django.db.models.deletion.SET_NULL,
                to="epdb.license",
                verbose_name="License",
            ),
        ),
    ]
--- a/public/migrations/init.py
+++ b/public/migrations/init.py
--- a/public/models.py
+++ b/public/models.py
@ -0,0 +1,6 @@
 from epdb.models import AbstractPackage
 class Package(AbstractPackage):
    class Meta:
        db_table = "epdb_package"
--- a/public/tests.py
+++ b/public/tests.py
@ -0,0 +1 @@
 # Create your tests here.
--- a/public/views.py
+++ b/public/views.py
@ -0,0 +1 @@
 # Create your views here.
--- a/pyproject.toml
+++ b/pyproject.toml
@ -27,11 +27,10 @@ dependencies = [
    "scikit-learn>=1.6.1",
    "sentry-sdk[django]>=2.32.0",
    "setuptools>=80.8.0",
    "polars==1.35.1",
 ]
 [tool.uv.sources]
-enviformer = { git = "ssh://git@git.envipath.com/enviPath/enviformer.git", rev = "v0.1.4" }
+enviformer = { git = "ssh://git@git.envipath.com/enviPath/enviformer.git", rev = "v0.1.2" }
 envipy-plugins = { git = "ssh://git@git.envipath.com/enviPath/enviPy-plugins.git", rev = "v0.1.0" }
 envipy-additional-information = { git = "ssh://git@git.envipath.com/enviPath/enviPy-additional-information.git", rev = "v0.1.7"}
 envipy-ambit = { git = "ssh://git@git.envipath.com/enviPath/enviPy-ambit.git" }
--- a/templates/framework.html
+++ b/templates/framework.html
@ -56,7 +56,7 @@
            (function () {
                var u = "//matomo.envipath.com/";
                _paq.push(['setTrackerUrl', u + 'matomo.php']);
-                _paq.push(['setSiteId', '{{ meta.site_id }}']);
+                _paq.push(['setSiteId', '10']);
                var d = document, g = d.createElement('script'), s = d.getElementsByTagName('script')[0];
                g.async = true;
                g.src = u + 'matomo.js';
--- a/tests/test_dataset.py
+++ b/tests/test_dataset.py
@ -1,10 +1,8 @@
 import os.path
 from tempfile import TemporaryDirectory
 from django.test import TestCase
 from epdb.logic import PackageManager
-from epdb.models import Reaction, Compound, User, Rule, Package
+from epdb.models import Reaction, Compound, User, Rule
-from utilities.chem import FormatConverter
+from utilities.ml import Dataset
 from utilities.ml import RuleBasedDataset, EnviFormerDataset
 class DatasetTest(TestCase):
@ -43,108 +41,12 @@ class DatasetTest(TestCase):
        super(DatasetTest, cls).setUpClass()
        cls.user = User.objects.get(username="anonymous")
        cls.package = PackageManager.create_package(cls.user, "Anon Test Package", "No Desc")
        cls.BBD_SUBSET = Package.objects.get(name="Fixtures")
-    def test_generate_dataset(self):
+    def test_smoke(self):
        """Test generating dataset does not crash"""
        self.generate_rule_dataset()
    def test_indexing(self):
        """Test indexing a few different ways to check for crashes"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds[5])
        print(ds[2, 5])
        print(ds[3:6, 2:8])
        print(ds[:2, "structure_id"])
    def test_add_rows(self):
        """Test adding one row and adding multiple rows"""
        ds, reactions, rules = self.generate_rule_dataset()
        ds.add_row(list(ds.df.row(1)))
        ds.add_rows([list(ds.df.row(i)) for i in range(5)])
    def test_times_triggered(self):
        """Check getting times triggered for a rule id"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.times_triggered(rules[0].uuid))
    def test_block_indices(self):
        """Test the usages of _block_indices"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.struct_features())
        print(ds.triggered())
        print(ds.observed())
    def test_structure_id(self):
        """Check getting a structure id from row index"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.structure_id(0))
    def test_x(self):
        """Test getting X portion of the dataframe"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.X().df.head())
    def test_trig(self):
        """Test getting the triggered portion of the dataframe"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.trig().df.head())
    def test_y(self):
        """Test getting the Y portion of the dataframe"""
        ds, reactions, rules = self.generate_rule_dataset()
        print(ds.y().df.head())
    def test_classification_dataset(self):
        """Test making the classification dataset"""
        ds, reactions, rules = self.generate_rule_dataset()
        compounds = [c.default_structure for c in Compound.objects.filter(package=self.BBD_SUBSET)]
        class_ds, products = ds.classification_dataset(compounds, rules)
        print(class_ds.df.head(5))
        print(products[:5])
    def test_extra_features(self):
        reactions = [r for r in Reaction.objects.filter(package=self.BBD_SUBSET)]
        applicable_rules = [r for r in Rule.objects.filter(package=self.BBD_SUBSET)]
        ds = RuleBasedDataset.generate_dataset(reactions, applicable_rules, feat_funcs=[FormatConverter.maccs, FormatConverter.morgan])
        print(ds.shape)
    def test_to_arff(self):
        """Test exporting the arff version of the dataset"""
        ds, reactions, rules = self.generate_rule_dataset()
        ds.to_arff("dataset_arff_test.arff")
    def test_save_load(self):
        """Test saving and loading dataset"""
        with TemporaryDirectory() as tmpdir:
            ds, reactions, rules = self.generate_rule_dataset()
            ds.save(os.path.join(tmpdir, "save_dataset.pkl"))
            ds_loaded = RuleBasedDataset.load(os.path.join(tmpdir, "save_dataset.pkl"))
            self.assertTrue(ds.df.equals(ds_loaded.df))
    def test_dataset_example(self):
        """Test with a concrete example checking dataset size"""
        reactions = [r for r in Reaction.objects.filter(package=self.package)]
        applicable_rules = [self.rule1]
-        ds = RuleBasedDataset.generate_dataset(reactions, applicable_rules)
+        ds = Dataset.generate_dataset(reactions, applicable_rules)
        self.assertEqual(len(ds.y()), 1)
-        self.assertEqual(ds.y().df.item(), 1)
+        self.assertEqual(sum(ds.y()[0]), 1)
    def test_enviformer_dataset(self):
        ds, reactions = self.generate_enviformer_dataset()
        print(ds.X().head())
        print(ds.y().head())
    def generate_rule_dataset(self):
        """Generate a RuleBasedDataset from test package data"""
        reactions = [r for r in Reaction.objects.filter(package=self.BBD_SUBSET)]
        applicable_rules = [r for r in Rule.objects.filter(package=self.BBD_SUBSET)]
        ds = RuleBasedDataset.generate_dataset(reactions, applicable_rules)
        return ds, reactions, applicable_rules
    def generate_enviformer_dataset(self):
        reactions = [r for r in Reaction.objects.filter(package=self.BBD_SUBSET)]
        ds = EnviFormerDataset.generate_dataset(reactions)
        return ds, reactions
--- a/tests/test_enviformer.py
+++ b/tests/test_enviformer.py
@ -1,10 +1,15 @@
 from collections import defaultdict
 from datetime import datetime
 from tempfile import TemporaryDirectory
 from django.conf import settings as s
 from django.test import TestCase, tag
 from epdb.logic import PackageManager
-from epdb.models import User, EnviFormer, Package, Setting
+from epdb.models import EnviFormer, Setting, User
-from epdb.tasks import predict_simple, predict
+from epdb.tasks import predict, predict_simple
 Package = s.GET_PACKAGE_MODEL()
 def measure_predict(mod, pathway_pk=None):
@ -42,11 +47,13 @@ class EnviFormerTest(TestCase):
                threshold = float(0.5)
                data_package_objs = [self.BBD_SUBSET]
                eval_packages_objs = [self.BBD_SUBSET]
-                mod = EnviFormer.create(self.package, data_package_objs, threshold=threshold)
+                mod = EnviFormer.create(
                    self.package, data_package_objs, eval_packages_objs, threshold=threshold
                )
                mod.build_dataset()
                mod.build_model()
-                mod.evaluate_model(True, eval_packages_objs, n_splits=2)
+                mod.evaluate_model(True, eval_packages_objs)
                mod.predict("CCN(CC)C(=O)C1=CC(=CC=C1)C")
@ -55,9 +62,12 @@ class EnviFormerTest(TestCase):
            with self.settings(MODEL_DIR=tmpdir):
                threshold = float(0.5)
                data_package_objs = [self.BBD_SUBSET]
                eval_packages_objs = [self.BBD_SUBSET]
                mods = []
                for _ in range(4):
-                    mod = EnviFormer.create(self.package, data_package_objs, threshold=threshold)
+                    mod = EnviFormer.create(
                        self.package, data_package_objs, eval_packages_objs, threshold=threshold
                    )
                    mod.build_dataset()
                    mod.build_model()
                    mods.append(mod)
@ -68,11 +78,15 @@ class EnviFormerTest(TestCase):
                # Test pathway prediction
                times = [measure_predict(mods[1], self.BBD_SUBSET.pathways[0].pk) for _ in range(5)]
-                print(f"First pathway prediction took {times[0]} seconds, subsequent ones took {times[1:]}")
+                print(
                    f"First pathway prediction took {times[0]} seconds, subsequent ones took {times[1:]}"
                )
                # Test eviction by performing three prediction with every model, twice.
                times = defaultdict(list)
-                for _ in range(2):  # Eviction should cause the second iteration here to have to reload the models
+                for _ in range(
                    2
                ):  # Eviction should cause the second iteration here to have to reload the models
                    for mod in mods:
                        for _ in range(3):
                            times[mod.pk].append(measure_predict(mod))
--- a/tests/test_model.py
+++ b/tests/test_model.py
@ -1,10 +1,13 @@
 from tempfile import TemporaryDirectory
 import numpy as np
 from django.conf import settings as s
 from django.test import TestCase
 from epdb.logic import PackageManager
-from epdb.models import User, MLRelativeReasoning, Package, RuleBasedRelativeReasoning
+from epdb.models import MLRelativeReasoning, User
 Package = s.GET_PACKAGE_MODEL()
 class ModelTest(TestCase):
@ -17,7 +20,7 @@ class ModelTest(TestCase):
        cls.package = PackageManager.create_package(cls.user, "Anon Test Package", "No Desc")
        cls.BBD_SUBSET = Package.objects.get(name="Fixtures")
-    def test_mlrr(self):
+    def test_smoke(self):
        with TemporaryDirectory() as tmpdir:
            with self.settings(MODEL_DIR=tmpdir):
                threshold = float(0.5)
@ -35,9 +38,21 @@ class ModelTest(TestCase):
                    description="Created MLRelativeReasoning in Testcase",
                )
                # mod = RuleBasedRelativeReasoning.create(
                #     self.package,
                #     rule_package_objs,
                #     data_package_objs,
                #     eval_packages_objs,
                #     threshold=threshold,
                #     min_count=5,
                #     max_count=0,
                #     name='ECC - BBD - 0.5',
                #     description='Created MLRelativeReasoning in Testcase',
                # )
                mod.build_dataset()
                mod.build_model()
-                mod.evaluate_model(True, eval_packages_objs, n_splits=2)
+                mod.evaluate_model(True, eval_packages_objs)
                results = mod.predict("CCN(CC)C(=O)C1=CC(=CC=C1)C")
@ -58,57 +73,3 @@ class ModelTest(TestCase):
                # from pprint import pprint
                # pprint(mod.eval_results)
    def test_applicability(self):
        with TemporaryDirectory() as tmpdir:
            with self.settings(MODEL_DIR=tmpdir):
                threshold = float(0.5)
                rule_package_objs = [self.BBD_SUBSET]
                data_package_objs = [self.BBD_SUBSET]
                eval_packages_objs = [self.BBD_SUBSET]
                mod = MLRelativeReasoning.create(
                    self.package,
                    rule_package_objs,
                    data_package_objs,
                    threshold=threshold,
                    name="ECC - BBD - 0.5",
                    description="Created MLRelativeReasoning in Testcase",
                    build_app_domain=True,  # To test the applicability domain this must be True
                    app_domain_num_neighbours=5,
                    app_domain_local_compatibility_threshold=0.5,
                    app_domain_reliability_threshold=0.5,
                )
                mod.build_dataset()
                mod.build_model()
                mod.evaluate_model(True, eval_packages_objs, n_splits=2)
                results = mod.predict("CCN(CC)C(=O)C1=CC(=CC=C1)C")
    def test_rbrr(self):
        with TemporaryDirectory() as tmpdir:
            with self.settings(MODEL_DIR=tmpdir):
                threshold = float(0.5)
                rule_package_objs = [self.BBD_SUBSET]
                data_package_objs = [self.BBD_SUBSET]
                eval_packages_objs = [self.BBD_SUBSET]
                mod = RuleBasedRelativeReasoning.create(
                    self.package,
                    rule_package_objs,
                    data_package_objs,
                    threshold=threshold,
                    min_count=5,
                    max_count=0,
                    name='ECC - BBD - 0.5',
                    description='Created MLRelativeReasoning in Testcase',
                )
                mod.build_dataset()
                mod.build_model()
                mod.evaluate_model(True, eval_packages_objs, n_splits=2)
                results = mod.predict("CCN(CC)C(=O)C1=CC(=CC=C1)C")
--- a/tests/test_multigen_eval.py
+++ b/tests/test_multigen_eval.py
@ -1,8 +1,12 @@
 from django.conf import settings as s
 from django.test import TestCase
 from networkx.utils.misc import graphs_equal
 from epdb.logic import PackageManager, SPathway
-from epdb.models import Pathway, User, Package
+from epdb.models import Pathway, User
-from utilities.ml import multigen_eval, pathway_edit_eval, graph_from_pathway
+from utilities.ml import graph_from_pathway, multigen_eval, pathway_edit_eval
 Package = s.GET_PACKAGE_MODEL()
 class MultiGenTest(TestCase):
--- a/tests/test_simpleambitrule.py
+++ b/tests/test_simpleambitrule.py
@ -1,9 +1,10 @@
-from unittest.mock import patch, MagicMock, PropertyMock
+from unittest.mock import MagicMock, PropertyMock, patch
 from django.conf import settings as s
 from django.test import TestCase
 from epdb.logic import PackageManager
-from epdb.models import User, SimpleAmbitRule
+from epdb.models import SimpleAmbitRule, User
 class SimpleAmbitRuleTest(TestCase):
@ -209,7 +210,7 @@ class SimpleAmbitRuleTest(TestCase):
        self.assertEqual(rule.products_smarts, expected_products)
-    @patch("epdb.models.Package.objects")
+    @patch(f"{s.PACKAGE_MODULE_PATH}.objects")
    def test_related_reactions_property(self, mock_package_objects):
        """Test related_reactions property returns correct queryset."""
        mock_qs = MagicMock()
--- a/tests/views/test_model_views.py
+++ b/tests/views/test_model_views.py
@ -1,9 +1,11 @@
 from django.conf import settings as s
 from django.test import TestCase, override_settings
 from django.urls import reverse
 from django.conf import settings as s
 from epdb.logic import UserManager
-from epdb.models import Package, User
+from epdb.models import User
 Package = s.GET_PACKAGE_MODEL()
@override_settings(MODEL_DIR=s.FIXTURE_DIRS[0] / "models", CELERY_TASK_ALWAYS_EAGER=True)
--- a/tests/views/test_package_views.py
+++ b/tests/views/test_package_views.py
@ -4,7 +4,9 @@ from django.test import TestCase, tag
 from django.urls import reverse
 from epdb.logic import UserManager
-from epdb.models import Package, UserPackagePermission, Permission, GroupPackagePermission, Group
+from epdb.models import Group, GroupPackagePermission, Permission, UserPackagePermission
 Package = s.GET_PACKAGE_MODEL()
 class PackageViewTest(TestCase):
--- a/tests/views/test_pathway_views.py
+++ b/tests/views/test_pathway_views.py
@ -1,9 +1,11 @@
 from django.conf import settings as s
 from django.test import TestCase, override_settings
 from django.urls import reverse
 from django.conf import settings as s
-from epdb.logic import UserManager, PackageManager
+from epdb.logic import PackageManager, UserManager
-from epdb.models import Pathway, Edge
+from epdb.models import Edge, Pathway
 Package = s.GET_PACKAGE_MODEL()
@override_settings(MODEL_DIR=s.FIXTURE_DIRS[0] / "models", CELERY_TASK_ALWAYS_EAGER=True)
--- a/tests/views/test_reaction_views.py
+++ b/tests/views/test_reaction_views.py
@ -1,9 +1,12 @@
 from django.conf import settings as s
 from django.test import TestCase
 from django.urls import reverse
-from envipy_additional_information import Temperature, Interval
+from envipy_additional_information import Interval, Temperature
-from epdb.logic import UserManager, PackageManager
+from epdb.logic import PackageManager, UserManager
-from epdb.models import Reaction, Scenario, ExternalDatabase
+from epdb.models import ExternalDatabase, Reaction, Scenario
 Package = s.GET_PACKAGE_MODEL()
 class ReactionViewTest(TestCase):
--- a/tests/views/test_user_views.py
+++ b/tests/views/test_user_views.py
@ -1,8 +1,11 @@
 from django.conf import settings as s
 from django.test import TestCase
 from django.urls import reverse
 from epdb.logic import PackageManager
-from epdb.models import Package, User
+from epdb.models import User
-from django.urls import reverse
+
 Package = s.GET_PACKAGE_MODEL()
 class UserViewTest(TestCase):
--- a/utilities/chem.py
+++ b/utilities/chem.py
@ -7,7 +7,7 @@ from typing import List, Optional, Dict, TYPE_CHECKING
 from indigo import Indigo, IndigoException, IndigoObject
 from indigo.renderer import IndigoRenderer
 from rdkit import Chem, rdBase
-from rdkit.Chem import MACCSkeys, Descriptors, rdFingerprintGenerator
+from rdkit.Chem import MACCSkeys, Descriptors
 from rdkit.Chem import rdChemReactions
 from rdkit.Chem.Draw import rdMolDraw2D
 from rdkit.Chem.MolStandardize import rdMolStandardize
@ -107,13 +107,6 @@ class FormatConverter(object):
        bitvec = MACCSkeys.GenMACCSKeys(mol)
        return bitvec.ToList()
    @staticmethod
    def morgan(smiles, radius=3, fpSize=2048):
        finger_gen = rdFingerprintGenerator.GetMorganGenerator(radius=radius, fpSize=fpSize)
        mol = Chem.MolFromSmiles(smiles)
        fp = finger_gen.GetFingerprint(mol)
        return fp.ToList()
    @staticmethod
    def get_functional_groups(smiles: str) -> List[str]:
        res = list()
--- a/utilities/decorators.py
+++ b/utilities/decorators.py
@ -1,10 +1,12 @@
 # decorators.py
 from functools import wraps
 from django.conf import settings as s
 from django.shortcuts import get_object_or_404
 from epdb.logic import PackageManager
-from epdb.models import Package
+
 Package = s.GET_PACKAGE_MODEL()
 # Map HTTP methods to required permissions
 DEFAULT_METHOD_PERMISSIONS = {
--- a/utilities/misc.py
+++ b/utilities/misc.py
@ -11,6 +11,7 @@ from enum import Enum
 from types import NoneType
 from typing import Any, Dict, List
 from django.conf import settings as s
 from django.db import transaction
 from envipy_additional_information import NAME_MAPPING, EnviPyModel, Interval
 from pydantic import BaseModel, HttpUrl
@ -26,7 +27,6 @@ from epdb.models import (
    License,
    MLRelativeReasoning,
    Node,
    Package,
    ParallelRule,
    Pathway,
    PluginModel,
@ -41,6 +41,8 @@ from epdb.models import (
 )
 from utilities.chem import FormatConverter
 Package = s.GET_PACKAGE_MODEL()
 logger = logging.getLogger(__name__)
--- a/utilities/ml.py
+++ b/utilities/ml.py
@ -5,14 +5,11 @@ import logging
 from collections import defaultdict
 from datetime import datetime
 from pathlib import Path
-from typing import List, Dict, Set, Tuple, TYPE_CHECKING, Callable
+from typing import List, Dict, Set, Tuple, TYPE_CHECKING
 from abc import ABC, abstractmethod
 import networkx as nx
 import numpy as np
 from envipy_plugins import Descriptor
 from numpy.random import default_rng
 import polars as pl
 from sklearn.base import BaseEstimator, ClassifierMixin
 from sklearn.decomposition import PCA
 from sklearn.dummy import DummyClassifier
@ -29,281 +26,70 @@ if TYPE_CHECKING:
    from epdb.models import Rule, CompoundStructure, Reaction
-class Dataset(ABC):
+class Dataset:
-    def __init__(self, columns: List[str] = None, data: List[List[str | int | float]] | pl.DataFrame = None):
+    def __init__(
-        if isinstance(data, pl.DataFrame):  # Allows for re-creation of self in cases like indexing with __getitem__
+        self, columns: List[str], num_labels: int, data: List[List[str | int | float]] = None
-            self.df = data
+    ):
        self.columns: List[str] = columns
        self.num_labels: int = num_labels
        if data is None:
            self.data: List[List[str | int | float]] = list()
        else:
-            # Build either an empty dataframe with columns or fill it with list of list data
+            self.data = data
            if data is not None and len(columns) != len(data[0]):
                raise ValueError(f"Header and Data are not aligned {len(columns)} columns vs. {len(data[0])} columns")
            if columns is None:
                raise ValueError("Columns can't be None if data is not already a DataFrame")
            self.df = pl.DataFrame(data=data, schema=columns, orient="row", infer_schema_length=None)
-    def add_rows(self, rows: List[List[str | int | float]]):
+        self.num_features: int = len(columns) - self.num_labels
-        """Add rows to the dataset. Extends the polars dataframe stored in self"""
+        self._struct_features: Tuple[int, int] = self._block_indices("feature_")
-        if len(self.columns) != len(rows[0]):
+        self._triggered: Tuple[int, int] = self._block_indices("trig_")
-            raise ValueError(f"Header and Data are not aligned {len(self.columns)} columns vs. {len(rows[0])} columns")
+        self._observed: Tuple[int, int] = self._block_indices("obs_")
        new_rows = pl.DataFrame(data=rows, schema=self.columns, orient="row", infer_schema_length=None)
        self.df.extend(new_rows)
-    def add_row(self, row: List[str | int | float]):
+    def _block_indices(self, prefix) -> Tuple[int, int]:
        """See add_rows"""
        self.add_rows([row])
    def block_indices(self, prefix) -> List[int]:
        """Find the indexes in column labels that has the prefix"""
        indices: List[int] = []
        for i, feature in enumerate(self.columns):
            if feature.startswith(prefix):
                indices.append(i)
        return indices
-    @property
+        return min(indices), max(indices)
    def columns(self) -> List[str]:
        """Use the polars dataframe columns"""
        return self.df.columns
-    @property
+    def structure_id(self):
-    def shape(self):
+        return self.data[0][0]
        return self.df.shape
-    @abstractmethod
+    def add_row(self, row: List[str | int | float]):
-    def X(self, **kwargs):
+        if len(self.columns) != len(row):
-        pass
+            raise ValueError(f"Header and Data are not aligned {len(self.columns)} vs. {len(row)}")
-
+        self.data.append(row)
    @abstractmethod
    def y(self, **kwargs):
        pass
    @staticmethod
    @abstractmethod
    def generate_dataset(reactions, *args, **kwargs):
        pass
    def __iter__(self):
        """Use polars iter_rows for iterating over the dataset"""
        return self.df.iter_rows()
    def __getitem__(self, item):
        """Item is passed to polars allowing for advanced indexing.
        See https://docs.pola.rs/api/python/stable/reference/dataframe/api/polars.DataFrame.__getitem__.html#polars.DataFrame.__getitem__"""
        res = self.df[item]
        if isinstance(res, pl.DataFrame):  # If we get a dataframe back from indexing make new self with res dataframe
            return self.__class__(data=res)
        else:  # If we don't get a dataframe back (likely base type, int, str, float etc.) return the item
            return res
    def save(self, path: "Path | str"):
        import pickle
        with open(path, "wb") as fh:
            pickle.dump(self, fh)
    @staticmethod
    def load(path: "str | Path") -> "Dataset":
        import pickle
        return pickle.load(open(path, "rb"))
    def to_numpy(self):
        return self.df.to_numpy()
    def __repr__(self):
        return (
            f"<{self.__class__.__name__} #rows={len(self.df)} #cols={len(self.columns)}>"
        )
    def __len__(self):
        return len(self.df)
    def iter_rows(self, named=False):
        return self.df.iter_rows(named=named)
    def filter(self, *predicates, **constraints):
        return self.__class__(data=self.df.filter(*predicates, **constraints))
    def select(self, *exprs, **named_exprs):
        return self.__class__(data=self.df.select(*exprs, **named_exprs))
    def with_columns(self, *exprs, **name_exprs):
        return self.__class__(data=self.df.with_columns(*exprs, **name_exprs))
    def sort(self, by, *more_by, descending=False, nulls_last=False, multithreaded=True, maintain_order=False):
        return self.__class__(data=self.df.sort(by, *more_by, descending=descending, nulls_last=nulls_last,
                                                multithreaded=multithreaded, maintain_order=maintain_order))
    def item(self, row=None, column=None):
        return self.df.item(row, column)
    def fill_nan(self, value):
        return self.__class__(data=self.df.fill_nan(value))
    @property
    def height(self):
        return self.df.height
 class RuleBasedDataset(Dataset):
    def __init__(self, num_labels=None, columns=None, data=None):
        super().__init__(columns, data)
        # Calculating num_labels allows functions like getitem to be in the base Dataset as it unifies the init.
        self.num_labels: int = num_labels if num_labels else sum([1 for c in self.columns if "obs_" in c])
        # Pre-calculate the ids of columns for features/labels, useful later in X and y
        self._struct_features: List[int] = self.block_indices("feature_")
        self._triggered: List[int] = self.block_indices("trig_")
        self._observed: List[int] = self.block_indices("obs_")
        self.feature_cols: List[int] = self._struct_features + self._triggered
        self.num_features: int = len(self.feature_cols)
        self.has_probs = False
    def times_triggered(self, rule_uuid) -> int:
-        """Count how many times a rule is triggered by the number of rows with one in the rules trig column"""
+        idx = self.columns.index(f"trig_{rule_uuid}")
        return self.df.filter(pl.col(f"trig_{rule_uuid}") == 1).height
-    def struct_features(self) -> List[int]:
+        times_triggered = 0
        for row in self.data:
            if row[idx] == 1:
                times_triggered += 1
        return times_triggered
    def struct_features(self) -> Tuple[int, int]:
        return self._struct_features
-    def triggered(self) -> List[int]:
+    def triggered(self) -> Tuple[int, int]:
        return self._triggered
-    def observed(self) -> List[int]:
+    def observed(self) -> Tuple[int, int]:
        return self._observed
-    def structure_id(self, index: int):
+    def at(self, position: int) -> Dataset:
-        """Get the UUID of a compound"""
+        return Dataset(self.columns, self.num_labels, [self.data[position]])
        return self.item(index, "structure_id")
-    def X(self, exclude_id_col=True, na_replacement=0):
+    def limit(self, limit: int) -> Dataset:
-        """Get all the feature and trig columns"""
+        return Dataset(self.columns, self.num_labels, self.data[:limit])
        _col_ids = self.feature_cols
        if not exclude_id_col:
            _col_ids = [0] + _col_ids
        res = self[:, _col_ids]
        if na_replacement is not None:
            res.df = res.df.fill_null(na_replacement)
        return res
-    def trig(self, na_replacement=0):
+    def __iter__(self):
-        """Get all the trig columns"""
+        return (self.at(i) for i, _ in enumerate(self.data))
        res = self[:, self._triggered]
        if na_replacement is not None:
            res.df = res.df.fill_null(na_replacement)
        return res
    def y(self, na_replacement=0):
        """Get all the obs columns"""
        res = self[:, self._observed]
        if na_replacement is not None:
            res.df = res.df.fill_null(na_replacement)
        return res
    @staticmethod
    def generate_dataset(reactions, applicable_rules, educts_only=True, feat_funcs: List["Callable | Descriptor"]=None):
        if feat_funcs is None:
            feat_funcs = [FormatConverter.maccs]
        _structures = set()  # Get all the structures
        for r in reactions:
            _structures.update(r.educts.all())
            if not educts_only:
                _structures.update(r.products.all())
        compounds = sorted(_structures, key=lambda x: x.url)
        triggered: Dict[str, Set[str]] = defaultdict(set)
        observed: Set[str] = set()
        # Apply rules on collected compounds and store tps
        for i, comp in enumerate(compounds):
            logger.debug(f"{i + 1}/{len(compounds)}...")
            for rule in applicable_rules:
                product_sets = rule.apply(comp.smiles)
                if len(product_sets) == 0:
                    continue
                key = f"{rule.uuid} + {comp.uuid}"
                if key in triggered:
                    logger.info(f"{key} already present. Duplicate reaction?")
                for prod_set in product_sets:
                    for smi in prod_set:
                        try:
                            smi = FormatConverter.standardize(smi, remove_stereo=True)
                        except Exception:
                            logger.debug(f"Standardizing SMILES failed for {smi}")
                        triggered[key].add(smi)
        for i, r in enumerate(reactions):
            logger.debug(f"{i + 1}/{len(reactions)}...")
            if len(r.educts.all()) != 1:
                logger.debug(f"Skipping {r.url} as it has {len(r.educts.all())} substrates!")
                continue
            for comp in r.educts.all():
                for rule in applicable_rules:
                    key = f"{rule.uuid} + {comp.uuid}"
                    if key not in triggered:
                        continue
                    # standardize products from reactions for comparison
                    standardized_products = []
                    for cs in r.products.all():
                        smi = cs.smiles
                        try:
                            smi = FormatConverter.standardize(smi, remove_stereo=True)
                        except Exception as e:
                            logger.debug(f"Standardizing SMILES failed for {smi}")
                        standardized_products.append(smi)
                    if len(set(standardized_products).difference(triggered[key])) == 0:
                        observed.add(key)
        feat_columns = []
        for feat_func in feat_funcs:
            if isinstance(feat_func, Descriptor):
                feats = feat_func.get_molecule_descriptors(compounds[0].smiles)
            else:
                feats = feat_func(compounds[0].smiles)
            start_i = len(feat_columns)
            feat_columns.extend([f"feature_{start_i + i}" for i, _ in enumerate(feats)])
        ds_columns = (["structure_id"] +
                      feat_columns +
                      [f"trig_{r.uuid}" for r in applicable_rules] +
                      [f"obs_{r.uuid}" for r in applicable_rules])
        rows = []
        for i, comp in enumerate(compounds):
            # Features
            feats = []
            for feat_func in feat_funcs:
                if isinstance(feat_func, Descriptor):
                    feat = feat_func.get_molecule_descriptors(comp.smiles)
                else:
                    feat = feat_func(comp.smiles)
                feats.extend(feat)
            trig = []
            obs = []
            for rule in applicable_rules:
                key = f"{rule.uuid} + {comp.uuid}"
                # Check triggered
                if key in triggered:
                    trig.append(1)
                else:
                    trig.append(0)
                # Check obs
                if key in observed:
                    obs.append(1)
                elif key not in triggered:
                    obs.append(None)
                else:
                    obs.append(0)
            rows.append([str(comp.uuid)] + feats + trig + obs)
        ds = RuleBasedDataset(len(applicable_rules), ds_columns, data=rows)
        return ds
    def classification_dataset(
        self, structures: List[str | "CompoundStructure"], applicable_rules: List["Rule"]
-    ) -> Tuple[RuleBasedDataset, List[List[PredictionResult]]]:
+    ) -> Tuple[Dataset, List[List[PredictionResult]]]:
        classify_data = []
        classify_products = []
        for struct in structures:
@ -327,18 +113,186 @@ class RuleBasedDataset(Dataset):
                else:
                    trig.append(0)
                    prods.append([])
            new_row = [struct_id] + features + trig + ([-1] * len(trig))
            if self.has_probs:
                new_row += [-1] * len(trig)
            classify_data.append(new_row)
            classify_products.append(prods)
        ds = RuleBasedDataset(len(applicable_rules), self.columns, data=classify_data)
        return ds, classify_products
-    def add_probs(self, probs):
+            classify_data.append([struct_id] + features + trig + ([-1] * len(trig)))
-        col_names = [f"prob_{self.columns[r_id].split('_')[-1]}" for r_id in self._observed]
+            classify_products.append(prods)
-        self.df = self.df.with_columns(*[pl.Series(name, probs[:, j]) for j, name in enumerate(col_names)])
+
-        self.has_probs = True
+        return Dataset(
            columns=self.columns, num_labels=self.num_labels, data=classify_data
        ), classify_products
    @staticmethod
    def generate_dataset(
        reactions: List["Reaction"], applicable_rules: List["Rule"], educts_only: bool = True
    ) -> Dataset:
        _structures = set()
        for r in reactions:
            for e in r.educts.all():
                _structures.add(e)
            if not educts_only:
                for e in r.products:
                    _structures.add(e)
        compounds = sorted(_structures, key=lambda x: x.url)
        triggered: Dict[str, Set[str]] = defaultdict(set)
        observed: Set[str] = set()
        # Apply rules on collected compounds and store tps
        for i, comp in enumerate(compounds):
            logger.debug(f"{i + 1}/{len(compounds)}...")
            for rule in applicable_rules:
                product_sets = rule.apply(comp.smiles)
                if len(product_sets) == 0:
                    continue
                key = f"{rule.uuid} + {comp.uuid}"
                if key in triggered:
                    logger.info(f"{key} already present. Duplicate reaction?")
                for prod_set in product_sets:
                    for smi in prod_set:
                        try:
                            smi = FormatConverter.standardize(smi, remove_stereo=True)
                        except Exception:
                            # :shrug:
                            logger.debug(f"Standardizing SMILES failed for {smi}")
                            pass
                        triggered[key].add(smi)
        for i, r in enumerate(reactions):
            logger.debug(f"{i + 1}/{len(reactions)}...")
            if len(r.educts.all()) != 1:
                logger.debug(f"Skipping {r.url} as it has {len(r.educts.all())} substrates!")
                continue
            for comp in r.educts.all():
                for rule in applicable_rules:
                    key = f"{rule.uuid} + {comp.uuid}"
                    if key not in triggered:
                        continue
                    # standardize products from reactions for comparison
                    standardized_products = []
                    for cs in r.products.all():
                        smi = cs.smiles
                        try:
                            smi = FormatConverter.standardize(smi, remove_stereo=True)
                        except Exception as e:
                            # :shrug:
                            logger.debug(f"Standardizing SMILES failed for {smi}")
                            pass
                        standardized_products.append(smi)
                    if len(set(standardized_products).difference(triggered[key])) == 0:
                        observed.add(key)
                    else:
                        pass
        ds = None
        for i, comp in enumerate(compounds):
            # Features
            feat = FormatConverter.maccs(comp.smiles)
            trig = []
            obs = []
            for rule in applicable_rules:
                key = f"{rule.uuid} + {comp.uuid}"
                # Check triggered
                if key in triggered:
                    trig.append(1)
                else:
                    trig.append(0)
                # Check obs
                if key in observed:
                    obs.append(1)
                elif key not in triggered:
                    obs.append(None)
                else:
                    obs.append(0)
            if ds is None:
                header = (
                    ["structure_id"]
                    + [f"feature_{i}" for i, _ in enumerate(feat)]
                    + [f"trig_{r.uuid}" for r in applicable_rules]
                    + [f"obs_{r.uuid}" for r in applicable_rules]
                )
                ds = Dataset(header, len(applicable_rules))
            ds.add_row([str(comp.uuid)] + feat + trig + obs)
        return ds
    def X(self, exclude_id_col=True, na_replacement=0):
        res = self.__getitem__(
            (slice(None), slice(1 if exclude_id_col else 0, len(self.columns) - self.num_labels))
        )
        if na_replacement is not None:
            res = [[x if x is not None else na_replacement for x in row] for row in res]
        return res
    def trig(self, na_replacement=0):
        res = self.__getitem__((slice(None), slice(self._triggered[0], self._triggered[1])))
        if na_replacement is not None:
            res = [[x if x is not None else na_replacement for x in row] for row in res]
        return res
    def y(self, na_replacement=0):
        res = self.__getitem__((slice(None), slice(len(self.columns) - self.num_labels, None)))
        if na_replacement is not None:
            res = [[x if x is not None else na_replacement for x in row] for row in res]
        return res
    def __getitem__(self, key):
        if not isinstance(key, tuple):
            raise TypeError("Dataset must be indexed with dataset[rows, columns]")
        row_key, col_key = key
        # Normalize rows
        if isinstance(row_key, int):
            rows = [self.data[row_key]]
        else:
            rows = self.data[row_key]
        # Normalize columns
        if isinstance(col_key, int):
            res = [row[col_key] for row in rows]
        else:
            res = [
                [row[i] for i in range(*col_key.indices(len(row)))]
                if isinstance(col_key, slice)
                else [row[i] for i in col_key]
                for row in rows
            ]
        return res
    def save(self, path: "Path"):
        import pickle
        with open(path, "wb") as fh:
            pickle.dump(self, fh)
    @staticmethod
    def load(path: "Path") -> "Dataset":
        import pickle
        return pickle.load(open(path, "rb"))
    def to_arff(self, path: "Path"):
        arff = f"@relation 'enviPy-dataset: -C {self.num_labels}'\n"
@ -350,7 +304,7 @@ class RuleBasedDataset(Dataset):
                arff += f"@attribute {c} {{0,1}}\n"
        arff += "\n@data\n"
-        for d in self:
+        for d in self.data:
            ys = ",".join([str(v if v is not None else "?") for v in d[-self.num_labels :]])
            xs = ",".join([str(v if v is not None else "?") for v in d[: self.num_features]])
            arff += f"{ys},{xs}\n"
@ -359,40 +313,10 @@ class RuleBasedDataset(Dataset):
            fh.write(arff)
            fh.flush()
-
+    def __repr__(self):
-class EnviFormerDataset(Dataset):
+        return (
-    def __init__(self, columns=None, data=None):
+            f"<Dataset #rows={len(self.data)} #cols={len(self.columns)} #labels={self.num_labels}>"
        super().__init__(columns, data)
    def X(self):
        """Return the educts"""
        return self["educts"]
    def y(self):
        """Return the products"""
        return self["products"]
    @staticmethod
    def generate_dataset(reactions, *args, **kwargs):
        # Standardise reactions for the training data
        stereo = kwargs.get("stereo", False)
        rows = []
        for reaction in reactions:
            e = ".".join(
                [
                    FormatConverter.standardize(smile.smiles, remove_stereo=not stereo)
                    for smile in reaction.educts.all()
                ]
        )
            p = ".".join(
                [
                    FormatConverter.standardize(smile.smiles, remove_stereo=not stereo)
                    for smile in reaction.products.all()
                ]
            )
            rows.append([e, p])
        ds = EnviFormerDataset(["educts", "products"], rows)
        return ds
 class SparseLabelECC(BaseEstimator, ClassifierMixin):
@ -574,7 +498,7 @@ class EnsembleClassifierChain:
            self.classifiers = []
        if self.num_labels is None:
-            self.num_labels = Y.shape[1]
+            self.num_labels = len(Y[0])
        for p in range(self.num_chains):
            logger.debug(f"{datetime.now()} fitting {p + 1}/{self.num_chains}")
@ -605,7 +529,7 @@ class RelativeReasoning:
    def fit(self, X, Y):
        n_instances = len(Y)
-        n_attributes = Y.shape[1]
+        n_attributes = len(Y[0])
        for i in range(n_attributes):
            for j in range(n_attributes):
@ -617,8 +541,8 @@ class RelativeReasoning:
                countboth = 0
                for k in range(n_instances):
-                    vi = Y[k, i]
+                    vi = Y[k][i]
-                    vj = Y[k, j]
+                    vj = Y[k][j]
                    if vi is None or vj is None:
                        continue
@ -674,7 +598,7 @@ class ApplicabilityDomainPCA(PCA):
        self.min_vals = None
        self.max_vals = None
-    def build(self, train_dataset: "RuleBasedDataset"):
+    def build(self, train_dataset: "Dataset"):
        # transform
        X_scaled = self.scaler.fit_transform(train_dataset.X())
        # fit pca
@ -688,7 +612,7 @@ class ApplicabilityDomainPCA(PCA):
        instances_pca = self.transform(instances_scaled)
        return instances_pca
-    def is_applicable(self, classify_instances: "RuleBasedDataset"):
+    def is_applicable(self, classify_instances: "Dataset"):
        instances_pca = self.__transform(classify_instances.X())
        is_applicable = []
--- a/uv.lock
+++ b/uv.lock
@ -1,10 +1,6 @@
 version = 1
-revision = 2
+revision = 3
 requires-python = ">=3.12"
 resolution-markers = [
    "sys_platform == 'linux' or sys_platform == 'win32'",
    "sys_platform != 'linux' and sys_platform != 'win32'",
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 [[package]]
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 [[package]]
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    { name = "typing-extensions" },
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 [[package]]
 name = "certifi"
 version = "2025.10.5"
@ -542,14 +525,13 @@ wheels = [
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-source = { git = "ssh://git@git.envipath.com/enviPath/enviformer.git?rev=v0.1.4#7094be5767748fd63d4a84a5d71f06cf02ba07f3" }
+source = { git = "ssh://git@git.envipath.com/enviPath/enviformer.git?rev=v0.1.2#3f28f60cfa1df814cf7559303b5130933efa40ae" }
 dependencies = [
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    { name = "lightning" },
    { name = "pytorch-lightning" },
    { name = "scikit-learn" },
-    { name = "torch", version = "2.8.0", source = { registry = "https://pypi.org/simple" }, marker = "sys_platform != 'linux' and sys_platform != 'win32'" },
+    { name = "torch" },
    { name = "torch", version = "2.8.0+cu128", source = { registry = "https://download.pytorch.org/whl/cu128" }, marker = "sys_platform == 'linux' or sys_platform == 'win32'" },
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 [[package]]
@ -564,6 +546,7 @@ dependencies = [
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    { name = "django-oauth-toolkit" },
    { name = "django-polymorphic" },
    { name = "django-stubs" },
    { name = "enviformer" },
    { name = "envipy-additional-information" },
    { name = "envipy-ambit" },
@ -571,7 +554,6 @@ dependencies = [
    { name = "epam-indigo" },
    { name = "gunicorn" },
    { name = "networkx" },
    { name = "polars" },
    { name = "psycopg2-binary" },
    { name = "python-dotenv" },
    { name = "rdkit" },
@ -584,8 +566,6 @@ dependencies = [
 [package.optional-dependencies]
 dev = [
    { name = "celery-stubs" },
    { name = "django-stubs" },
    { name = "poethepoet" },
    { name = "pre-commit" },
    { name = "ruff" },
@ -597,16 +577,15 @@ ms-login = [
 [package.metadata]
 requires-dist = [
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    { name = "celery-stubs", marker = "extra == 'dev'", specifier = "==0.1.3" },
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    { name = "django-oauth-toolkit", specifier = ">=3.0.1" },
    { name = "django-polymorphic", specifier = ">=4.1.0" },
-    { name = "django-stubs", marker = "extra == 'dev'", specifier = ">=5.2.4" },
+    { name = "django-stubs", specifier = ">=5.2.4" },
-    { name = "enviformer", git = "ssh://git@git.envipath.com/enviPath/enviformer.git?rev=v0.1.4" },
+    { name = "enviformer", git = "ssh://git@git.envipath.com/enviPath/enviformer.git?rev=v0.1.2" },
-    { name = "envipy-additional-information", git = "ssh://git@git.envipath.com/enviPath/enviPy-additional-information.git?rev=v0.1.7" },
+    { name = "envipy-additional-information", git = "ssh://git@git.envipath.com/enviPath/enviPy-additional-information.git?rev=v0.1.4" },
    { name = "envipy-ambit", git = "ssh://git@git.envipath.com/enviPath/enviPy-ambit.git" },
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@ -630,8 +608,8 @@ provides-extras = ["ms-login", "dev"]
 [[package]]
 name = "envipy-additional-information"
-version = "0.1.7"
+version = "0.1.0"
-source = { git = "ssh://git@git.envipath.com/enviPath/enviPy-additional-information.git?rev=v0.1.7#d02a5d5e6a931e6565ea86127813acf7e4b33a30" }
+source = { git = "ssh://git@git.envipath.com/enviPath/enviPy-additional-information.git?rev=v0.1.4#4da604090bf7cf1f3f552d69485472dbc623030a" }
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@ -887,8 +865,7 @@ dependencies = [
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    { name = "pyyaml" },
-    { name = "torch", version = "2.8.0", source = { registry = "https://pypi.org/simple" }, marker = "sys_platform != 'linux' and sys_platform != 'win32'" },
+    { name = "torch" },
    { name = "torch", version = "2.8.0+cu128", source = { registry = "https://download.pytorch.org/whl/cu128" }, marker = "sys_platform == 'linux' or sys_platform == 'win32'" },
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 source = { registry = "https://pypi.org/simple" }
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Author	SHA1	Message	Date
Tim Lorsbach	62e890245e	...	2025-10-29 20:00:41 +01:00
Tim Lorsbach	138846d84d	...	2025-10-29 19:46:20 +01:00