{"metadata":{"kernelspec":{"language":"python","display_name":"Python 3","name":"python3"},"language_info":{"name":"python","version":"3.7.9","mimetype":"text/x-python","codemirror_mode":{"name":"ipython","version":3},"pygments_lexer":"ipython3","nbconvert_exporter":"python","file_extension":".py"}},"nbformat_minor":4,"nbformat":4,"cells":[{"cell_type":"markdown","source":"## Decision Trees tutorial & improving hosting with skops 🌲\n\nIn this notebook I will walk you through decision trees and how to inspect them, and we will later improve model hosting using [skops](https://skops.readthedocs.io/en/stable/). ","metadata":{}},{"cell_type":"code","source":"# This Python 3 environment comes with many helpful analytics libraries installed\n# It is defined by the kaggle/python Docker image: https://github.com/kaggle/docker-python\n# For example, here's several helpful packages to load\n\nimport numpy as np # linear algebra\nimport pandas as pd # data processing, CSV file I/O (e.g. pd.read_csv)\n\n# Input data files are available in the read-only \"../input/\" directory\n# For example, running this (by clicking run or pressing Shift+Enter) will list all files under the input directory\n\nimport os\nfor dirname, _, filenames in os.walk('/kaggle/input'):\n for filename in filenames:\n print(os.path.join(dirname, filename))\n\n# You can write up to 20GB to the current directory (/kaggle/working/) that gets preserved as output when you create a version using \"Save & Run All\" \n# You can also write temporary files to /kaggle/temp/, but they won't be saved outside of the current session","metadata":{"_uuid":"8f2839f25d086af736a60e9eeb907d3b93b6e0e5","_cell_guid":"b1076dfc-b9ad-4769-8c92-a6c4dae69d19","_kg_hide-input":true,"_kg_hide-output":true,"execution":{"iopub.status.busy":"2022-12-01T13:21:07.411748Z","iopub.execute_input":"2022-12-01T13:21:07.412350Z","iopub.status.idle":"2022-12-01T13:21:07.419860Z","shell.execute_reply.started":"2022-12-01T13:21:07.412261Z","shell.execute_reply":"2022-12-01T13:21:07.418325Z"},"trusted":true},"execution_count":1,"outputs":[]},{"cell_type":"code","source":"!pip install skops","metadata":{"_kg_hide-output":true,"execution":{"iopub.status.busy":"2022-12-01T13:21:09.851317Z","iopub.execute_input":"2022-12-01T13:21:09.851890Z","iopub.status.idle":"2022-12-01T13:21:15.803438Z","shell.execute_reply.started":"2022-12-01T13:21:09.851859Z","shell.execute_reply":"2022-12-01T13:21:15.802081Z"},"trusted":true},"execution_count":2,"outputs":[{"name":"stdout","text":"Requirement already satisfied: skops in /opt/conda/lib/python3.7/site-packages (0.3.0)\nRequirement already satisfied: tabulate>=0.8.8 in /opt/conda/lib/python3.7/site-packages (from skops) (0.8.8)\nRequirement already satisfied: typing-extensions>=3.7 in /opt/conda/lib/python3.7/site-packages (from skops) (3.7.4.3)\nRequirement already satisfied: huggingface-hub>=0.10.1 in /opt/conda/lib/python3.7/site-packages (from skops) (0.11.1)\nRequirement already satisfied: scikit-learn>=0.24 in /opt/conda/lib/python3.7/site-packages (from skops) (0.24.1)\nRequirement already satisfied: packaging>=20.9 in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (21.3)\nRequirement already satisfied: tqdm in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (4.55.1)\nRequirement already satisfied: pyyaml>=5.1 in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (5.3.1)\nRequirement already satisfied: requests in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (2.25.1)\nRequirement already satisfied: importlib-metadata in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (3.3.0)\nRequirement already satisfied: filelock in /opt/conda/lib/python3.7/site-packages (from huggingface-hub>=0.10.1->skops) (3.0.12)\nRequirement already satisfied: pyparsing!=3.0.5,>=2.0.2 in /opt/conda/lib/python3.7/site-packages (from packaging>=20.9->huggingface-hub>=0.10.1->skops) (2.4.7)\nRequirement already satisfied: scipy>=0.19.1 in /opt/conda/lib/python3.7/site-packages (from scikit-learn>=0.24->skops) (1.5.4)\nRequirement already satisfied: threadpoolctl>=2.0.0 in /opt/conda/lib/python3.7/site-packages (from scikit-learn>=0.24->skops) (2.1.0)\nRequirement already satisfied: joblib>=0.11 in /opt/conda/lib/python3.7/site-packages (from scikit-learn>=0.24->skops) (1.0.0)\nRequirement already satisfied: numpy>=1.13.3 in /opt/conda/lib/python3.7/site-packages (from scikit-learn>=0.24->skops) (1.19.5)\nRequirement already satisfied: zipp>=0.5 in /opt/conda/lib/python3.7/site-packages (from importlib-metadata->huggingface-hub>=0.10.1->skops) (3.4.0)\nRequirement already satisfied: urllib3<1.27,>=1.21.1 in /opt/conda/lib/python3.7/site-packages (from requests->huggingface-hub>=0.10.1->skops) (1.26.2)\nRequirement already satisfied: certifi>=2017.4.17 in /opt/conda/lib/python3.7/site-packages (from requests->huggingface-hub>=0.10.1->skops) (2020.12.5)\nRequirement already satisfied: idna<3,>=2.5 in /opt/conda/lib/python3.7/site-packages (from requests->huggingface-hub>=0.10.1->skops) (2.10)\nRequirement already satisfied: chardet<5,>=3.0.2 in /opt/conda/lib/python3.7/site-packages (from requests->huggingface-hub>=0.10.1->skops) (3.0.4)\n\u001b[33mWARNING: You are using pip version 21.0.1; however, version 22.3.1 is available.\nYou should consider upgrading via the '/opt/conda/bin/python3.7 -m pip install --upgrade pip' command.\u001b[0m\n","output_type":"stream"}]},{"cell_type":"markdown","source":"We will use breast cancer dataset from sklearn datasets. We will load the dataset and split. ","metadata":{}},{"cell_type":"code","source":"from sklearn.datasets import load_breast_cancer\nfrom sklearn.model_selection import train_test_split","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:16.196274Z","iopub.execute_input":"2022-12-01T13:21:16.196592Z","iopub.status.idle":"2022-12-01T13:21:16.523656Z","shell.execute_reply.started":"2022-12-01T13:21:16.196567Z","shell.execute_reply":"2022-12-01T13:21:16.522085Z"},"trusted":true},"execution_count":3,"outputs":[]},{"cell_type":"code","source":"cancer = load_breast_cancer()\ndata = pd.DataFrame(cancer.data, columns=[cancer.feature_names])\ndata.head()","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:16.668054Z","iopub.execute_input":"2022-12-01T13:21:16.668383Z","iopub.status.idle":"2022-12-01T13:21:16.719596Z","shell.execute_reply.started":"2022-12-01T13:21:16.668356Z","shell.execute_reply":"2022-12-01T13:21:16.717624Z"},"trusted":true},"execution_count":4,"outputs":[{"execution_count":4,"output_type":"execute_result","data":{"text/plain":" mean radius mean texture mean perimeter mean area mean smoothness \\\n0 17.99 10.38 122.80 1001.0 0.11840 \n1 20.57 17.77 132.90 1326.0 0.08474 \n2 19.69 21.25 130.00 1203.0 0.10960 \n3 11.42 20.38 77.58 386.1 0.14250 \n4 20.29 14.34 135.10 1297.0 0.10030 \n\n mean compactness mean concavity mean concave points mean symmetry \\\n0 0.27760 0.3001 0.14710 0.2419 \n1 0.07864 0.0869 0.07017 0.1812 \n2 0.15990 0.1974 0.12790 0.2069 \n3 0.28390 0.2414 0.10520 0.2597 \n4 0.13280 0.1980 0.10430 0.1809 \n\n mean fractal dimension ... worst radius worst texture worst perimeter \\\n0 0.07871 ... 25.38 17.33 184.60 \n1 0.05667 ... 24.99 23.41 158.80 \n2 0.05999 ... 23.57 25.53 152.50 \n3 0.09744 ... 14.91 26.50 98.87 \n4 0.05883 ... 22.54 16.67 152.20 \n\n worst area worst smoothness worst compactness worst concavity \\\n0 2019.0 0.1622 0.6656 0.7119 \n1 1956.0 0.1238 0.1866 0.2416 \n2 1709.0 0.1444 0.4245 0.4504 \n3 567.7 0.2098 0.8663 0.6869 \n4 1575.0 0.1374 0.2050 0.4000 \n\n worst concave points worst symmetry worst fractal dimension \n0 0.2654 0.4601 0.11890 \n1 0.1860 0.2750 0.08902 \n2 0.2430 0.3613 0.08758 \n3 0.2575 0.6638 0.17300 \n4 0.1625 0.2364 0.07678 \n\n[5 rows x 30 columns]","text/html":"
\n\n\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n
mean radiusmean texturemean perimetermean areamean smoothnessmean compactnessmean concavitymean concave pointsmean symmetrymean fractal dimension...worst radiusworst textureworst perimeterworst areaworst smoothnessworst compactnessworst concavityworst concave pointsworst symmetryworst fractal dimension
017.9910.38122.801001.00.118400.277600.30010.147100.24190.07871...25.3817.33184.602019.00.16220.66560.71190.26540.46010.11890
120.5717.77132.901326.00.084740.078640.08690.070170.18120.05667...24.9923.41158.801956.00.12380.18660.24160.18600.27500.08902
219.6921.25130.001203.00.109600.159900.19740.127900.20690.05999...23.5725.53152.501709.00.14440.42450.45040.24300.36130.08758
311.4220.3877.58386.10.142500.283900.24140.105200.25970.09744...14.9126.5098.87567.70.20980.86630.68690.25750.66380.17300
420.2914.34135.101297.00.100300.132800.19800.104300.18090.05883...22.5416.67152.201575.00.13740.20500.40000.16250.23640.07678
\n

5 rows × 30 columns

\n
"},"metadata":{}}]},{"cell_type":"code","source":"X = cancer.data\ny = cancer.target\nX_train, X_test, y_train, y_test = train_test_split(X, y, stratify=y, \n random_state=42)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:17.243233Z","iopub.execute_input":"2022-12-01T13:21:17.243595Z","iopub.status.idle":"2022-12-01T13:21:17.251729Z","shell.execute_reply.started":"2022-12-01T13:21:17.243563Z","shell.execute_reply":"2022-12-01T13:21:17.250403Z"},"trusted":true},"execution_count":5,"outputs":[]},{"cell_type":"code","source":"from sklearn.tree import DecisionTreeClassifier\ntree = DecisionTreeClassifier(random_state=0)\ntree.fit(X_train, y_train)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:18.976344Z","iopub.execute_input":"2022-12-01T13:21:18.976921Z","iopub.status.idle":"2022-12-01T13:21:19.137843Z","shell.execute_reply.started":"2022-12-01T13:21:18.976882Z","shell.execute_reply":"2022-12-01T13:21:19.135814Z"},"trusted":true},"execution_count":6,"outputs":[{"execution_count":6,"output_type":"execute_result","data":{"text/plain":"DecisionTreeClassifier(random_state=0)"},"metadata":{}}]},{"cell_type":"markdown","source":"## Evaluate and Inspect the Model","metadata":{}},{"cell_type":"code","source":"from sklearn.metrics import classification_report\ny_pred = tree.predict(X_test)\nprint(classification_report(y_test, y_pred))","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:19.705292Z","iopub.execute_input":"2022-12-01T13:21:19.705688Z","iopub.status.idle":"2022-12-01T13:21:19.718621Z","shell.execute_reply.started":"2022-12-01T13:21:19.705652Z","shell.execute_reply":"2022-12-01T13:21:19.717510Z"},"trusted":true},"execution_count":7,"outputs":[{"name":"stdout","text":" precision recall f1-score support\n\n 0 0.91 0.92 0.92 53\n 1 0.96 0.94 0.95 90\n\n accuracy 0.94 143\n macro avg 0.93 0.93 0.93 143\nweighted avg 0.94 0.94 0.94 143\n\n","output_type":"stream"}]},{"cell_type":"code","source":"report = pd.DataFrame.from_dict(classification_report(y_test, y_pred, output_dict = True))","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:35.456594Z","iopub.execute_input":"2022-12-01T13:21:35.457151Z","iopub.status.idle":"2022-12-01T13:21:35.469930Z","shell.execute_reply.started":"2022-12-01T13:21:35.457116Z","shell.execute_reply":"2022-12-01T13:21:35.468844Z"},"trusted":true},"execution_count":9,"outputs":[]},{"cell_type":"code","source":"print(report)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:36.065318Z","iopub.execute_input":"2022-12-01T13:21:36.065648Z","iopub.status.idle":"2022-12-01T13:21:36.073465Z","shell.execute_reply.started":"2022-12-01T13:21:36.065622Z","shell.execute_reply":"2022-12-01T13:21:36.072161Z"},"trusted":true},"execution_count":10,"outputs":[{"name":"stdout","text":" 0 1 accuracy macro avg weighted avg\nprecision 0.907407 0.955056 0.937063 0.931232 0.937396\nrecall 0.924528 0.944444 0.937063 0.934486 0.937063\nf1-score 0.915888 0.949721 0.937063 0.932804 0.937181\nsupport 53.000000 90.000000 0.937063 143.000000 143.000000\n","output_type":"stream"}]},{"cell_type":"code","source":"from sklearn.tree import export_graphviz\nexport_graphviz(tree, out_file=\"tree.dot\", class_names=[\"malignant\", \"benign\"],\n feature_names=cancer.feature_names, impurity=False, filled=True)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:21:59.435038Z","iopub.execute_input":"2022-12-01T13:21:59.435400Z","iopub.status.idle":"2022-12-01T13:21:59.447564Z","shell.execute_reply.started":"2022-12-01T13:21:59.435368Z","shell.execute_reply":"2022-12-01T13:21:59.446135Z"},"trusted":true},"execution_count":11,"outputs":[]},{"cell_type":"code","source":"import pydot\nimport graphviz\n\n(graph,) = pydot.graph_from_dot_file('tree.dot')\n\nwith open(\"tree.dot\") as f:\n dot_graph = f.read()\ndisplay(graphviz.Source(dot_graph))","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:22:16.395803Z","iopub.execute_input":"2022-12-01T13:22:16.396179Z","iopub.status.idle":"2022-12-01T13:22:16.630158Z","shell.execute_reply.started":"2022-12-01T13:22:16.396144Z","shell.execute_reply":"2022-12-01T13:22:16.628958Z"},"_kg_hide-output":true,"trusted":true},"execution_count":12,"outputs":[{"output_type":"display_data","data":{"text/plain":"","image/svg+xml":"\n\n\n\n\n\nTree\n\n\n\n0\n\nworst radius <= 16.795\nsamples = 426\nvalue = [159, 267]\nclass = benign\n\n\n\n1\n\nworst concave points <= 0.136\nsamples = 284\nvalue = [25, 259]\nclass = benign\n\n\n\n0->1\n\n\nTrue\n\n\n\n28\n\ntexture error <= 0.473\nsamples = 142\nvalue = [134, 8]\nclass = malignant\n\n\n\n0->28\n\n\nFalse\n\n\n\n2\n\nradius error <= 1.048\nsamples = 252\nvalue = [4, 248]\nclass = benign\n\n\n\n1->2\n\n\n\n\n\n17\n\nworst texture <= 25.62\nsamples = 32\nvalue = [21, 11]\nclass = malignant\n\n\n\n1->17\n\n\n\n\n\n3\n\nsmoothness error <= 0.003\nsamples = 251\nvalue = [3, 248]\nclass = benign\n\n\n\n2->3\n\n\n\n\n\n16\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n2->16\n\n\n\n\n\n4\n\nmean texture <= 19.9\nsamples = 4\nvalue = [1, 3]\nclass = benign\n\n\n\n3->4\n\n\n\n\n\n7\n\narea error <= 48.7\nsamples = 247\nvalue = [2, 245]\nclass = benign\n\n\n\n3->7\n\n\n\n\n\n5\n\nsamples = 3\nvalue = [0, 3]\nclass = benign\n\n\n\n4->5\n\n\n\n\n\n6\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n4->6\n\n\n\n\n\n8\n\nworst texture <= 33.35\nsamples = 243\nvalue = [1, 242]\nclass = benign\n\n\n\n7->8\n\n\n\n\n\n13\n\nmean concavity <= 0.029\nsamples = 4\nvalue = [1, 3]\nclass = benign\n\n\n\n7->13\n\n\n\n\n\n9\n\nsamples = 225\nvalue = [0, 225]\nclass = benign\n\n\n\n8->9\n\n\n\n\n\n10\n\nworst texture <= 33.8\nsamples = 18\nvalue = [1, 17]\nclass = benign\n\n\n\n8->10\n\n\n\n\n\n11\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n10->11\n\n\n\n\n\n12\n\nsamples = 17\nvalue = [0, 17]\nclass = benign\n\n\n\n10->12\n\n\n\n\n\n14\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n13->14\n\n\n\n\n\n15\n\nsamples = 3\nvalue = [0, 3]\nclass = benign\n\n\n\n13->15\n\n\n\n\n\n18\n\nworst area <= 817.1\nsamples = 12\nvalue = [3, 9]\nclass = benign\n\n\n\n17->18\n\n\n\n\n\n23\n\nworst symmetry <= 0.268\nsamples = 20\nvalue = [18, 2]\nclass = malignant\n\n\n\n17->23\n\n\n\n\n\n19\n\nmean smoothness <= 0.123\nsamples = 10\nvalue = [1, 9]\nclass = benign\n\n\n\n18->19\n\n\n\n\n\n22\n\nsamples = 2\nvalue = [2, 0]\nclass = malignant\n\n\n\n18->22\n\n\n\n\n\n20\n\nsamples = 9\nvalue = [0, 9]\nclass = benign\n\n\n\n19->20\n\n\n\n\n\n21\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n19->21\n\n\n\n\n\n24\n\nfractal dimension error <= 0.002\nsamples = 3\nvalue = [1, 2]\nclass = benign\n\n\n\n23->24\n\n\n\n\n\n27\n\nsamples = 17\nvalue = [17, 0]\nclass = malignant\n\n\n\n23->27\n\n\n\n\n\n25\n\nsamples = 1\nvalue = [1, 0]\nclass = malignant\n\n\n\n24->25\n\n\n\n\n\n26\n\nsamples = 2\nvalue = [0, 2]\nclass = benign\n\n\n\n24->26\n\n\n\n\n\n29\n\nsamples = 5\nvalue = [0, 5]\nclass = benign\n\n\n\n28->29\n\n\n\n\n\n30\n\nworst concavity <= 0.191\nsamples = 137\nvalue = [134, 3]\nclass = malignant\n\n\n\n28->30\n\n\n\n\n\n31\n\nworst texture <= 30.975\nsamples = 5\nvalue = [2, 3]\nclass = benign\n\n\n\n30->31\n\n\n\n\n\n34\n\nsamples = 132\nvalue = [132, 0]\nclass = malignant\n\n\n\n30->34\n\n\n\n\n\n32\n\nsamples = 3\nvalue = [0, 3]\nclass = benign\n\n\n\n31->32\n\n\n\n\n\n33\n\nsamples = 2\nvalue = [2, 0]\nclass = malignant\n\n\n\n31->33\n\n\n\n\n\n"},"metadata":{}}]},{"cell_type":"code","source":"print(\"Feature importances:\")\nprint(tree.feature_importances_)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:22:27.114215Z","iopub.execute_input":"2022-12-01T13:22:27.114789Z","iopub.status.idle":"2022-12-01T13:22:27.123148Z","shell.execute_reply.started":"2022-12-01T13:22:27.114749Z","shell.execute_reply":"2022-12-01T13:22:27.121501Z"},"trusted":true},"execution_count":13,"outputs":[{"name":"stdout","text":"Feature importances:\n[0. 0.00752597 0. 0. 0.00903116 0.\n 0.00752597 0. 0. 0. 0.00975731 0.04630969\n 0. 0.00238745 0.00231135 0. 0. 0.\n 0. 0.00668975 0.69546322 0.05383211 0. 0.01354675\n 0. 0. 0.01740312 0.11684357 0.01137258 0. ]\n","output_type":"stream"}]},{"cell_type":"code","source":"import matplotlib.pyplot as plt\n#bar chart of feature importances\ndef plot_feature_importances_cancer(model):\n n_features = cancer.data.shape[1]\n plt.figure(figsize=(8,20))\n plt.barh(np.arange(n_features), model.feature_importances_, align='center')\n plt.yticks(np.arange(n_features), cancer.feature_names)\n plt.xlabel(\"Feature importance\")\n plt.ylabel(\"Feature\")\n plt.ylim(-1, n_features)\n plt.savefig('testfig.png',dpi=300, bbox_inches = \"tight\")\n\nplot_feature_importances_cancer(tree)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:22:29.532843Z","iopub.execute_input":"2022-12-01T13:22:29.533165Z","iopub.status.idle":"2022-12-01T13:22:31.008940Z","shell.execute_reply.started":"2022-12-01T13:22:29.533139Z","shell.execute_reply":"2022-12-01T13:22:31.008108Z"},"trusted":true},"execution_count":14,"outputs":[{"output_type":"display_data","data":{"text/plain":"
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\n"},"metadata":{"needs_background":"light"}}]},{"cell_type":"markdown","source":"**We will now apply cost complexity pruning (post-pruning) to our tree to reduce the size and overfitting.**","metadata":{}},{"cell_type":"code","source":"path = tree.cost_complexity_pruning_path(X_train, y_train)\nccp_alphas, impurities = path.ccp_alphas, path.impurities","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:22:36.829875Z","iopub.execute_input":"2022-12-01T13:22:36.830481Z","iopub.status.idle":"2022-12-01T13:22:36.846093Z","shell.execute_reply.started":"2022-12-01T13:22:36.830450Z","shell.execute_reply":"2022-12-01T13:22:36.843969Z"},"trusted":true},"execution_count":15,"outputs":[]},{"cell_type":"code","source":"print(ccp_alphas)","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:22:39.720460Z","iopub.execute_input":"2022-12-01T13:22:39.720843Z","iopub.status.idle":"2022-12-01T13:22:39.733881Z","shell.execute_reply.started":"2022-12-01T13:22:39.720804Z","shell.execute_reply":"2022-12-01T13:22:39.730426Z"},"trusted":true},"execution_count":16,"outputs":[{"name":"stdout","text":"[0. 0.00231936 0.00312989 0.00422535 0.00456509 0.00532081\n 0.0056338 0.00633803 0.00814228 0.01487676 0.02166662 0.05466684\n 0.32538187]\n","output_type":"stream"}]},{"cell_type":"markdown","source":"## Model hosting using skops 🤗\nWe will now initialize a repository and save a model and a model card in it. ","metadata":{}},{"cell_type":"code","source":"from skops import hub_utils, card\nimport os\nimport joblib\n\n# create a directory to initialize our repo\nlocal_repo = \"./model_dir\"\n# save the model\npkl_path = \"./model.pkl\"\njoblib.dump(tree, pkl_path)\n\n# initialize the repository \nhub_utils.init(model=pkl_path, \n task=\"tabular-classification\",\n requirements=[\"scikit-learn\"], \n dst=local_repo,\n data=X_train)\n\n# see what's inside the repository\nprint(os.listdir(local_repo))","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:19.683597Z","iopub.execute_input":"2022-12-01T13:23:19.684289Z","iopub.status.idle":"2022-12-01T13:23:19.694628Z","shell.execute_reply.started":"2022-12-01T13:23:19.684241Z","shell.execute_reply":"2022-12-01T13:23:19.693726Z"},"trusted":true},"execution_count":19,"outputs":[{"name":"stdout","text":"['config.json', 'model.pkl']\n","output_type":"stream"}]},{"cell_type":"markdown","source":"We will now initialize a model card and add information.","metadata":{}},{"cell_type":"code","source":"from pathlib import Path\nmodel_card = card.Card(tree, metadata=card.metadata_from_config(Path(local_repo)))","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:23.949248Z","iopub.execute_input":"2022-12-01T13:23:23.949851Z","iopub.status.idle":"2022-12-01T13:23:23.956738Z","shell.execute_reply.started":"2022-12-01T13:23:23.949805Z","shell.execute_reply":"2022-12-01T13:23:23.955196Z"},"trusted":true},"execution_count":20,"outputs":[]},{"cell_type":"code","source":"description = \"This is a Decision Tree Classifier trained on breast cancer dataset and pruned with CCP.\"\nlimitations = \"This model is trained for educational purposes.\"\nmodel_card.add(model_description = description,\n limitations = limitations)\n","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:25.733610Z","iopub.execute_input":"2022-12-01T13:23:25.733946Z","iopub.status.idle":"2022-12-01T13:23:25.742664Z","shell.execute_reply.started":"2022-12-01T13:23:25.733916Z","shell.execute_reply":"2022-12-01T13:23:25.741153Z"},"trusted":true},"execution_count":21,"outputs":[{"execution_count":21,"output_type":"execute_result","data":{"text/plain":"Card(\n model=DecisionTreeClassifier(random_state=0),\n metadata.library_name=sklearn,\n metadata.tags=['sklearn', 'skops', 'tabular-classification'],\n metadata.model_file=model.pkl,\n metadata.widget={...},\n model_description='This is a Decisi...cancer dataset and pruned with CCP.',\n limitations='This model is trained for educational purposes.',\n)"},"metadata":{}}]},{"cell_type":"markdown","source":"We will add the plots we've visualized above.","metadata":{}},{"cell_type":"code","source":"# save feature importance bar chart\nplot_feature_importances_cancer(tree)\nplt.savefig(Path(local_repo) / 'feature_importances.png')\n# save graph\ngraph.write_png(Path(local_repo) / 'tree.png')\n\n# write the plots to model card\nmodel_card.add_plot(**{\"Feature Importances\": 'feature_importances.png',\n \"Tree Splits\": 'tree.png'})","metadata":{"_kg_hide-output":true,"execution":{"iopub.status.busy":"2022-12-01T13:23:30.323398Z","iopub.execute_input":"2022-12-01T13:23:30.323754Z","iopub.status.idle":"2022-12-01T13:23:32.254691Z","shell.execute_reply.started":"2022-12-01T13:23:30.323721Z","shell.execute_reply":"2022-12-01T13:23:32.253135Z"},"trusted":true},"execution_count":22,"outputs":[{"execution_count":22,"output_type":"execute_result","data":{"text/plain":"Card(\n model=DecisionTreeClassifier(random_state=0),\n metadata.library_name=sklearn,\n metadata.tags=['sklearn', 'skops', 'tabular-classification'],\n metadata.model_file=model.pkl,\n metadata.widget={...},\n model_description='This is a Decisi...cancer dataset and pruned with CCP.',\n limitations='This model is trained for educational purposes.',\n Feature Importances='feature_importances.png',\n Tree Splits='tree.png',\n)"},"metadata":{}},{"output_type":"display_data","data":{"text/plain":"
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uBA4P/Q29EaXPfDVfXvy1lvLWf/wXtYygj/HVTVkUl2AQ4A5ieZUVX/M6TP6cDpAOtO22J5a5AkaY20Ku1gQe814THt99n0vgmaX1UFXA/slWTj9iH7wfRejT1Bkg2BKVX1DeBoeq/ZAO4HJo+w7uXA29r4SUme3mqYmWT9JBvQe+04e6TCq+o+4OeDry2TrJtkfWAK8KsWrvYBnts37Fx6IfBAemEL4FLgze0+SLJpkmcNs+RabRzA64HvtZ23u5MM7rS9kWGe0Sie8IySbF5V11fVB4C7gOcsx1ySJE1Yq1rAmg1MA66tqjvoveqbDVBVtwPvBa4AFtD7/uhrw8wxGbi4vZKbBby7tZ8LHJvkpqEfuQPvAvZJsojeK7Otq2oecCZwA71wd0Z7rTeaNwJHtbWvobczdQ4wkGQOvd2sWwc7V9XNrd5ftPujqi4D/hO4ttVzAcMHwweBrZPMpbdDd2JrP5Tex/wL6YXLE4cZO5KvA68c/Mi9zbMoyWJ6gXPBcswlSdKEld7mkFY3SR6oqg3Hu45+607boqYd+rHxLmOVdNtJB4x3CZKkjiWZW1UDw11b1XawJEmSVnsGrNXUqrZ7JUmSHmfAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOrTL/2LNWf9tsOoU5/sRySZLcwZIkSeqaAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpY/6YBnVm0S/uZfrxlyyz323+KAdJ0hrOHSxJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsFaAJDOTbDXedSxLkk2SXNCOZyR52XjXJEnSmsCA9RQkmTTCpZnAKh+wquqXVXVgO50BGLAkSerAhAxYSY5LclQ7PjXJd9vxfknObscHJ1mUZHGSk/vGPpDkxCTXA7smOSnJLUkWJvlokt2AlwOnJJmfZPMhaz87yVeSLGi/dmvtf9PWWpzk6NY2Pcn3k3w2yc1JLkvytHbtBUm+0+aYl2TzJBsmubydL0ryitb35CRv76vhhCTvafMvTvJ7wInAQa3mg5L8KMnU1n+tJP83ycYr5k9EkqQ1y4QMWMBVwB7teADYMMk6wO7A7CSbACcD+9Lb2dkpyczWfwNgcVXtAtwCvBLYuqq2Bf6pqq4BLgKOraoZVfXjIWufBsyqqu2AHYCbk+wIHA7sAvwR8NYk27f+WwCfrKqtgXuAV7f2c1r7dsBuwO3AEuCVVbUDsA/wL0kCnAsc1FfDa4HzB0+q6rfAB4DzWs3nAWcDh7Qu+wMLququZT9aSZI0UQPWXGDHJJOBh4Fr6QWtPYDZwE7AlVV1Z1U9Si/M7NnGLgUubMf30Qs1ZyR5FfDQGNbeF/g0QFUtrap76QW7r1TVg1X1APBlHg+AP62q+X11T291b1pVX2nzLKmqh4AA/5xkIfAdYFPg2VV1E/Cs9s3VdsDdVfX/LaPOzwFvasdvBj4/XKckRySZk2TO0ofuHcPtS5K05puQAauqHgFuo7drdA29ULUPsDnwfXpBZSRLqmppm+dRYGd6gWsm8K0nWdJo6z3cd7wUWHuU/ocAU4Edq2oGcAewXrt2AXAgvZ2sc5dVUFX9DLgjyb70dta+OUK/06tqoKoGJq0/ZVnTSpI0IUzIgNVcBRzTfp8NHAnMr6oCrgf2SrJx+5D9YGDW0AmSbAhMqapvAEfTe50IcD8weYR1Lwfe1sZPSvL0VsPMJOsn2YDea8fZIxVeVfcBPx98bZlk3STrA1OAX1XVI0n2AZ7bN+xc4HX0QtYFw0w7XM1n0HtV+F+DoVKSJC3bRA5Ys4FpwLVVdQe9V32zAarqduC9wBXAAmBeVX1tmDkmAxe3V3KzgHe39nOBY5PcNPQjd+BdwD5JFtF75bd1Vc0DzgRuoBfuzmiv9UbzRuCotvY1wP+h9ypzIMkcertZtw52rqqbW72/aPc31BXAVoMfube2i4ANGeH1oCRJGl56GzbS70oyAJxaVXssszOw7rQtatqhH1tmv9tOOuApViZJ0vhLMreqBoa7tvbKLkarhyTH03uVeciy+kqSpCeayK8INYqqOqmqnltV3xvvWiRJWt0YsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpY/6gUXVmm02nMMef0i5JkjtYkiRJXTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYPVJMjPJVuNdx/JaXeuWJGlNNSEDVpJJI1yaCayOQWUmq2fdkiStkVargJXkuCRHteNTk3y3He+X5Ox2fHCSRUkWJzm5b+wDSU5Mcj2wa5KTktySZGGSjybZDXg5cEqS+Uk2H7L2s5N8JcmC9mu31v43ba3FSY5ubdOT3JrkjNZ+TpL9k1yd5EdJdm79TkjyxSTfbe1vbe0bJrk8ybx2L6/oq+NNreYFbezv1J3kyiQnJ7khyQ+T7NHGTkpySpIb2xx/1dqnJbmqjV+cZI/W98x2vijJu1fEn6kkSWuitce7gOV0FfAe4DRgAFg3yTrA7sDsJJsAJwM7AncDlyWZWVVfBTYAFlfVB5I8A/gPYMuqqiQbVdU9SS4CLq6qC4ZZ+zRgVlW9su2AbZhkR+BwYBcgwPVJZrW1XwC8BjgCuBF4favz5cDf0dt1AtgW+KNW301JLgF+Bbyyqu5LsjFwXattK+B9wEuq6q4kz6iqXw+tOwnA2lW1c5KXAR8E9gfeAtxbVTslWRe4OsllwKuAS6vqQ+3e1gdmAJtW1YvbnBsN9weS5Ih2j2y22WYj/8lJkjSBrFY7WMBcYMckk4GHgWvpBa09gNnATsCVVXVnVT0KnAPs2cYuBS5sx/cBS4AzkrwKeGgMa+8LfBqgqpZW1b30AtNXqurBqnoA+HKrBeCnVbWoqh4DbgYur6oCFgHT++b9WlX9pqruAq4AdqYX1v45yULgO8CmwLNbDRe0vlTVr0ep98t9z2xwvZcCb0oyH7geeCawBb0AeHiSE4Btqup+4CfA85N8PMmftmf2O6rq9KoaqKqBqVOnjlKOJEkTx2oVsKrqEeA2ertG19ALVfsAmwPfpxdMRrKkqpa2eR6lF2QupLeT9K0nWdJo6z3cd/xY3/ljPHHnsIaMK+AQYCqwY1XNAO4A1mvrDe2/rPWX9q0X4J1VNaP9el5VXVZVV9ELor8AvpjkTVV1N7AdcCXw18AZY1xXkqQJb7UKWM1VwDHt99nAkcD8tjt0PbBXko3bq66DgVlDJ0iyITClqr4BHE3vdRjA/cDkEda9HHhbGz8pydNbDTOTrJ9kA+CVrabl8Yok6yV5JrA3vd2kKcCvquqRJPsAz+2r4bWtL+1V57Lq7ncp8Lb2WpUkL0yyQZLntvU+S+/V6Q7t1eRaVXUh8PfADst5X5IkTVirY8CaDUwDrq2qO+i96psNUFW3A++l96ptATCvqr42zByTgYvbK7hZwOAH3OcCxya5aehH7sC7gH2SLKL32m3rqpoHnAncQC/cnVFVNy3n/dwAXAJcB/xjVf2S3qvNgSRz6O1m3dru72bgQ8CsJAuAfx1D3f3OAG4B5iVZDPw7vd2tvYH5SW4CXg38G73Xkle214ln0nuukiRpDNLb+NF4aN88PVBVHx3vWrowMDBQc+bMGe8yJElaKZLMraqB4a6tjjtYkiRJq7TV7cc0rFGq6oTxrkGSJHXPHSxJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBqwxSDIzyVarQB2HJdmk7/y2JBuPZ02SJOl3GbD6JJk0wqWZwLgHLOAwYJNldZIkSeNrjQhYSY5LclQ7PjXJd9vxfknObscHJ1mUZHGSk/vGPpDkxCTXA7smOSnJLUkWJvlokt2AlwOnJJmfZPMha7+mzbkgyVWt7bAkX03y9SQ/TfKOJH+T5KYk1yV5Rus3o50vTPKVJL8/UnuSA4EB4JxWx9NaCe9MMq/d25Zt/AlJPpfkyiQ/GXw27dobktzQ5vj3JJParzPbfSxK8u7W96i+Z3Fu939ykiStmdaIgAVcBezRjgeADZOsA+wOzG6v1U4G9gVmADslmdn6bwAsrqpdgFuAVwJbV9W2wD9V1TXARcCxVTWjqn48ZO0PAH9SVdvRC2KDXgy8HtgZ+BDwUFVtD1wLvKn1OQv427bWIuCDI7VX1QXAHOCQVsdvWt+7qmoH4NPAMX3rbwn8SVv/g0nWSfKHwEHAS6pqBrAUOKQ9k02r6sVVtQ3w+TbH8cD2rY4jh3vwSY5IMifJnDvvvHO4LpIkTThrSsCaC+yYZDLwML0QM0AvdM0GdgKurKo7q+pR4BxgzzZ2KXBhO74PWAKckeRVwENjWPtq4MwkbwX6XzFeUVX3V9WdwL3A11v7ImB6kinARlU1q7V/AdhzpPZR1v9y3zOY3td+SVU9XFV3Ab8Cng3sB+wI3Jhkfjt/PvAT4PlJPp7kT9tzAFhIb8fsDcCjwy1eVadX1UBVDUydOnWUMiVJmjjWiIBVVY8AtwGHA9fQC1X7AJsD3wcyyvAlVbW0zfMovR2fC+l9d/WtMax9JPB+4DnA/CTPbJce7uv2WN/5Y8DaY7itsRqcd+mQefvXH7wW4AttB2xGVb2oqk6oqruB7YArgb8GzmjjDgA+SS+UzU3SZd2SJK2x1oiA1VxF7xXZVfQC1pHA/Koq4HpgryQbtw/ZDwZmDZ0gyYbAlKr6BnA0vVdnAPcDk4dbNMnmVXV9VX0AuIte0FqmqroXuDvJ4KvNNwKzRmpfVh1jdDlwYJJntdqfkeS57W8irlVVFwJ/D+yQZC3gOVV1BXAcsBGw4VNYW5KkCWNN2pGYDbwPuLaqHkyypLVRVbcneS9wBb1dnG9U1deGmWMy8LUk67V+727t5wKfbR+LHzjkO6xTkmzR+l8OLODxYLYshwKfSbI+vdd0hy+j/czW/htg1zGu8b+q6pYk7wcuawHqEXo7Vr8BPt/aAN5L73Xn2e2VZYBTq+qe5V1TkqSJKL0NHumpGxgYqDlz5ox3GZIkrRRJ5lbVwHDX1qRXhJIkSasEA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdW3u8C9CaY9Ev7mX68ZeMeP22kw5YidVIkjR+3MGSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBqzVWJKZSbYa7zokSdITGbBWA0kmjXBpJvCkA1YS/y1KSZJWAAPWCpTkuCRHteNTk3y3He+X5Ox2fHCSRUkWJzm5b+wDSU5Mcj2wa5KTktySZGGSjybZDXg5cEqS+Uk2H7L2XyS5PslNSb6T5Nmt/YQkpye5DDgrydQkFya5sf16Seu3c5Jr2vhrkrxoZTwzSZLWBO5grFhXAe8BTgMGgHWTrAPsDsxOsglwMrAjcDdwWZKZVfVVYANgcVV9IMkzgP8AtqyqSrJRVd2T5CLg4qq6YJi1vwf8Uev/l8BxrRbaertX1W+S/CdwalV9L8lmwKXAHwK3AntW1aNJ9gf+GXj10EWSHAEcATDp6VOf6vOSJGmNYMBaseYCOyaZDDwMzKMXtPYAjgJ2Aq6sqjsBkpwD7Al8FVgKXNjmuQ9YApyR5BLg4jGs/QfAeUmmAb8H/LTv2kVV9Zt2vD+wVZLBa09v9U4BvpBkC6CAdYZbpKpOB04HWHfaFjWGuiRJWuP5inAFqqpHgNuAw4FrgNnAPsDmwPeBjDgYllTV0jbPo8DO9ALXTOBbY1j+48Anqmob4K+A9fquPdh3vBawa1XNaL82rar7gX8ErqiqFwN/MWS8JEkahQFrxbsKOKb9Phs4EphfVQVcD+yVZOP2IfvBwKyhEyTZEJhSVd8AjgZmtEv3A5NHWHcK8It2fOgo9V0GvKNvrcG5+8cfNsp4SZI0hAFrxZsNTAOurao76L3qmw1QVbcD7wWuABYA86rqa8PMMRm4OMlCegHs3a39XODY9iH65kPGnACcn2Q2cNco9R0FDLSP52+hFwABPgJ8OMnVwEh/i1GSJA0jvY0U6albd9oWNe3Qj414/baTDlh5xUiStIIlmVtVA8NdcwdLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqY/9izOrPNplOY4w8TlSTJHSxJkqSuGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwOpZkZpKtVuD813Q0z95JdutiLkmS9EQGrCcpyaQRLs0EOg9Yg+tVVVehaG9gueZKsnZHa0uStEabcAEryXFJjmrHpyb5bjveL8nZ7fjgJIuSLE5yct/YB5KcmOR6YNckJyW5JcnCJB9tO0IvB05JMj/J5kPWPjPJZ5LMTvLDJH/e2iclOSXJjW2uv2rteye5Isl/AosGa+i7NivJf7W5TkpySJIbWu2bt35Tk1zY5r4xyUuSTAeOBN7d6txjuH5t/AlJTk9yGXDWivpzkSRpTTIRdySuAt4DnAYMAOsmWQfYHZidZBPgZGBH4G7gsiQzq+qrwAbA4qr6QJJnAP8BbFlVlWSjqronyUXAxVV1wQjrTwf2AjYHrkjyAuBNwL1VtVOSdYGrW6AB2Bl4cVX9dJi5tgP+EPg18BPgjKraOcm7gHcCRwP/BpxaVd9LshlwaVX9YZLPAA9U1UcBWoh7Qr82N+1Z7F5VvxlaQJIjgCMANttss5GeuSRJE8pEDFhzgR2TTAYeBubRC1p7AEcBOwFXVtWdAEnOAfYEvgosBS5s89wHLAHOSHIJcPEY1/+vqnoM+FGSnwBbAi8Ftk1yYOszBdgC+C1wwwjhCuDGqrq91fljYDCULQL2acf7A1slGRzz9HbvQ43W76LhwhVAVZ0OnA4wMDBQI9+2JEkTx4QLWFX1SJLbgMOBa4CF9MLI5sD3gReOMnxJVS1t8zyaZGdgP+B1wDuAfcdSwjDnAd5ZVZf2X0iyN/DgKHM93Hf8WN/5Yzz+Z7sWsOvQgNQXpBhDv9FqkCRJQ0y4b7Caq4Bj2u+z6X2PNL+qCrge2CvJxu3D8oOBWUMnSLIhMKWqvkHvVdyMdul+YLgdokGvSbJW+0bq+cAP6L2Oe1t7VUmSFybZ4CnfZc9l9MLfYN0j1TlSP0mStJwmasCaDUwDrq2qO+i96psN0F65vRe4AlgAzKuqrw0zx2Tg4iQL6QWwd7f2c4Fjk9w09CP35get/zeBI6tqCXAGcAswL8li4N/pbnfxKGCgfTx/C70wCfB14JWDH7mP0k+SJC2n9DZttDIkOZPRP4BfrQ0MDNScOXPGuwxJklaKJHOramC4axN1B0uSJGmFmXAfuY+nqjpsvGuQJEkrnjtYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHVt7vAvQmmPRL+5l+vGXjGsNt510wLiuL0kSuIMlSZLUOQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFirgCQzk2y1vNfGOPfRSdZ/8tVJkqTlZcBaiZJMGuHSTGCkEDXatbE4GliugJXEf6NSkqSnwIA1BkmOS3JUOz41yXfb8X5Jzm7HBydZlGRxkpP7xj6Q5MQk1wO7JjkpyS1JFib5aJLdgJcDpySZn2TzvrG/c639+laSuUlmJ9kyydpJbkyydxv34SQfajVvAlyR5IrBevrmPzDJme34zCT/2vqdPNw6K+wBS5K0hnGnYmyuAt4DnAYMAOsmWQfYHZidZBPgZGBH4G7gsiQzq+qrwAbA4qr6QJJnAP8BbFlVlWSjqronyUXAxVV1Qf+iVXXN0GtJLgeOrKofJdkF+FRV7ZvkMOCCFqr+FNilqn6b5G+AfarqrjHc5wuB/atq6XDrAPsOHZDkCOAIgElPnzrW5ylJ0hrNgDU2c4Edk0wGHgbm0QtaewBHATsBV1bVnQBJzgH2BL4KLAUubPPcBywBzkhyCXDx8hSRZENgN+D8JIPN6wJU1c1Jvgh8Hdi1qn77JO7z/BauRlxnqKo6HTgdYN1pW9STWFOSpDWOAWsMquqRJLcBhwPXAAuBfYDNge/T2/kZyZKqWtrmeTTJzsB+wOuAdzDMrtAo1gLuqaoZI1zfBrgHePYoc/SHoPWGXHtwjOtIkqRR+A3W2F0FHNN+nw0cCcyvqgKuB/ZKsnH7kP1gYNbQCdrO0JSq+ga9j89ntEv3A5NHWPd/r1XVfcBPk7ymzZck27XjVwHPpLdzdlqSjUaY+44kf5hkLeCVwy042jqSJGnZDFhjNxuYBlxbVXfQe9U3G6CqbgfeC1wBLADmVdXXhpljMnBxkoX0Ati7W/u5wLFJbur/yH2Ea4cAb0myALgZeEWSjYGTgLdU1Q+BTwD/1safDnxz8CN34Hh6rya/C9w+yv3+zjqjPx5JkjQovQ0Y6albd9oWNe3Qj41rDbeddMC4ri9JmjiSzK2qgeGuuYMlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMf4tQndlm0ynM8Qd9SpLkDpYkSVLXDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHfPHNKgzi35xL9OPv2S8y5Ak6XfctpJ/jJA7WJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAtYpKMjPJVh3PeWWSgXb8jSQbdTm/JEnqMWCNsySTRrg0E1hmwErypP49yap6WVXd82TGSpKk0RmwnqQkxyU5qh2fmuS77Xi/JGe344OTLEqyOMnJfWMfSHJikuuBXZOclOSWJAuTfDTJbsDLgVOSzE+y+ZC1z0zyr0muAE5OsnOSa5Lc1H5/Uev3tCTntnnPA57WN8dtSTZOMj3J4r72Y5Kc0I6P6qvr3BXzJCVJWvM8qd0PAXAV8B7gNGAAWDfJOsDuwOwkmwAnAzsCdwOXJZlZVV8FNgAWV9UHkjwD+A9gy6qqJBtV1T1JLgIurqoLRlj/hcD+VbU0ydOBPavq0ST7A/8MvBp4G/BQVW2bZFtg3nLe4/HA86rq4ZFeJyY5AjgCYNLTpy7n9JIkrZncwXry5gI7JpkMPAxcSy9o7QHMBnYCrqyqO6vqUeAcYM82dilwYTu+D1gCnJHkVcBDY1z//Kpa2o6nAOe3nahTga1b+57A2QBVtRBYuJz3uBA4J8kbgEeH61BVp1fVQFUNTFp/ynJOL0nSmsmA9SRV1SPAbcDhwDX0QtU+wObA94GMMnzJYDhq4WtneoFrJvCtMZbwYN/xPwJXVNWLgb8A1usvdRnzPMoT/zvoH3sA8El6u3Bzn+z3XpIkTTQGrKfmKuCY9vts4EhgflUVcD2wV/vOaRJwMDBr6ARJNgSmVNU3gKOBGe3S/cDkMdYxBfhFOz5sSH2HtHVeDGw7zNg7gGcleWaSdYE/b/3XAp5TVVcAxwEbARuOsR5JkiY0A9ZTMxuYBlxbVXfQe9U3G6CqbgfeC1wBLADmVdXXhpljMnBxkoX0Ati7W/u5wLHtw/XNhxnX7yPAh5NcDfT/rcRPAxu2uY8Dbhg6sO3EnUgvEF4M3NouTQLOTrIIuAk41b91KEnS2KS32SI9detO26KmHfqx8S5DkqTfcdtJB3Q+Z5K5VTUw3DV3sCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjvlvy6kz22w6hTkr4Ae5SZK0unEHS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSO+WMa1JlFv7iX6cdf8r/nt/kjGyRJE5Q7WJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdWylBawkRyX5fpJzOpjrsCSbjKHfmUkOXEaf6UkWt+OBJKc91fqejCTXjMe6kiSpeyvz3yJ8O/BnVfXT/sYka1fVo8s512HAYuCXHdUGQFXNAeZ0OedyrL3bylpr6DMf65/Bk/yzkiRpwlkpASvJZ4DnAxcl+RwwBdgEmA7cleTvgC8CG7Qh76iqa9rY44A3Ao8B36QXgAaAc5L8BtgVOBb4C+BpwDXAX1VVjVLPjsDngIeA7/W17w0cU1V/nuQE4HnANOCFwN8AfwT8GfAL4C+q6pE2178CGwJ3AYdV1e1JrgSuB/YBNgLeUlWzk2wNfB74PXo7iK+uqh8leaCqNkwS4CNtnQL+qarOa7Wd0NZ4MTAXeMPQ+0yyOfBJYGq7v7dW1a1JzgR+DWwPzEvyzCHnXwQ+A6wP/Bh4c1Xd3e7jGuAlwEXAv4z0XCVJUs9KeUVYVUfS223ap6pObc07Aq+oqtcDvwL+uKp2AA4CTgNI8mfATGCXqtoO+EhVXUAvZB1SVTOq6jfAJ6pqp6p6Mb2Q9efLKOnzwFFVtesy+m0OHAC8AjgbuKKqtgF+AxyQZB3g48CBVTUY2j7UN37tqtoZOBr4YGs7Evi3qppBLyj+fMiarwJmANsB+wOnJJnWrm3f5tqKXmB9yTA1nw68s9VzDPCpvmsvBPavqvcMc34W8LdVtS2wqK9egI2qaq+q+p1wleSIJHOSzFn60L3DlCNJ0sSzMl8RDnVRC0cA6wCfSDIDWErvf/zQCxifr6qHAKrq1yPMtU/b6VofeAZwM/D14TommUIvMMxqTV+kt1s0nG+2XapFwCTgW619Eb3dtxfR2036dm/jiUnA7X3jv9x+n9v6A1wLvC/JHwBfrqofDVlzd+BLVbUUuCPJLGAn4D7ghqr6ebuP+W3O/h24DYHdgPNbPQDr9s19fpv3CefDPJMvAOf39TtvuIcDUFWn0wt1rDttixF3DSVJmkjGM2A92Hf8buAOers2awFLWnvovSYbUZL16O3SDFTVz9qrvfVGG7KsOfs8DFBVjyV5pO913GP0nl2Am0fZCXu4/b609aeq/jPJ9fR2xi5N8pdV9d0h9Y1az9A5+6wF3NN2x4bz4DLORzLWfpIkiVXnxzRMAW6vqsfofW81qbVfBrw5yfoASZ7R2u8HJrfjwTB1V9vBGfVvDVbVPcC9SXZvTYc8hbp/AExNsmurb532jdWIkjwf+ElVnUbvm6Zth3S5CjgoyaQkU4E9gRvGUkxV3Qf8NMlr2lpJst0Yxt0L3J1kj9b0RmDWKEMkSdIoVpWA9Sng0CTX0Xs9+CBAVX2LXgiZ016JHdP6nwl8prU9DHyW3mu7rwI3jmG9w4FPJrmW3vdUT0pV/ZZeoDs5yQJgPr1XdKM5CFjcat+S3rdP/b4CLAQWAN8Fjquq/7ccZR0CvKXVczO978fG4lB633stpPcN2InLsaYkSeqTUf6ynbRc1p22RU079GP/e37bSQeMXzGSJK1gSeZW1cBw11aVHSxJkqQ1hgFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjo2nv8WodYw22w6hTn+cFFJktzBkiRJ6poBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAWsVkmRmkq3Guw5JkvTUGLBWLTOBYQNWkrW7WmToXGOdu8saJElak03Y/2Em2QD4L+APgEnAPwJ3Ae+oqle2Pn8MvK2qXpXkAeCTwP7A3cDfAR8BNgOOrqqLkhxGLyRNAl4M/Avwe8AbgYeBl1XVr5Ns3uaaCjwEvBV4BvByYK8k7wdeDfwHcA3wEuC7bf4XVtUjSZ4OLAS2qKpH+u5rKvCZVhettquTnABsAkwH7krywyHn7wU+12q6Ezi8qv6/JGcCvwa2B+YB73nSD12SpAliwgYs4E+BX1bVAQBJpgD3AZ9MMrWq7gQOBz7f+m8AXFlVf5vkK8A/AX9Mb8fpC8BFrd+L6YWR9YD/C/xtVW2f5FTgTcDHgNOBI6vqR0l2AT5VVfsmuQi4uKouaDUBbFRVe7Xz6cABwFeB1wEX9oer5t+AU6vqe0k2Ay4F/rBd2xHYvap+0wJX//nXgbOq6gtJ3gycRi8sArwQ2L+qlg59iEmOAI4A2GyzzYZeliRpQprIrwgXAfsnOTnJHlV1b1UV8EXgDUk2AnYFvtn6/xb4Vt/YWS3cLKK3CzToiqq6vwW0e4Gv942ZnmRDYDfg/CTzgX8Hpo1S53l9x2fQC33wxPDXb3/gE23ui4CnJ5ncrl1UVb/p69t/vivwn+34i8Duff3OHy5cAVTV6VU1UFUDU6dOHeU2JEmaOCbsDlZV/TDJjsDLgA8nuayqTqQXWr4OLKEXLB5tQx5pAQzgMXqv/Kiqx4Z8m/Rw3/FjfeeP0XveawH3VNWMMZb6YF/NVyeZnmQvYFJVLR6m/1rArkOC1OBu2IND+g4971d9x6P1kyRJQ0zYHawkmwAPVdXZwEeBHQCq6pfAL4H3A2d2vW5V3Qf8NMlrWh1Jsl27fD8wecTBPWcBX2L43SuAy4B3DJ4kmTHG0q6h99oR4BDge2McJ0mShpiwAQvYBrihvUp7H71vqgadA/ysqm5ZQWsfArwlyQLgZuAVrf1c4NgkN7UP4YdzDvD79ELWcI4CBpIsTHILcOQYazoKODzJQnof5b9rjOMkSdIQefytlwYl+QRwU1X9x3jXMlSSA4FXVNUbx7uWoQYGBmrOnDnjXYYkSStFkrlVNTDctQn7DdZIksyl983RKvfjCJJ8HPgzet+NSZKkVZQBa4iq2nG8axhJVb1zvGuQJEnLNpG/wZIkSVohDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA9Y4SbJJkgvG0O/vVkY9kiSpOwascVJVv6yqA8fQtfOAlWTt0c7HOk6SJA1vlQ1YSd6UZGGSBUm+2Nqem+Ty1n55ks1a+5lJTktyTZKfJDmwb57jkixq85zU2t6a5MbWdmGS9ZNMSXJbkrVan/WT/CzJOkk2T/KtJHOTzE6y5TD1npDki0m+m+RHSd7a2pPklCSLWx0HtfbpSRa348OSfLmt8aMkH2ntJwFPSzI/yTlJNkhySat78eBcQ+oYttb2jP41yRXAycOcz0hyXXu2X0ny+23clUn+Ocks4F1d/flKkrQmWyV3JJJsDbwPeElV3ZXkGe3SJ4CzquoLSd4MnAbMbNemAbsDWwIXARck+bN2fZeqeqhvni9X1WfbWv8EvKWqPp5kAbAXcAXwF8ClVfVIktOBI6vqR0l2AT4F7DtM6dsCfwRsANyU5BJgV2AGsB2wMXBjkquGGTsD2B54GPhBko9X1fFJ3lFVM1qtrwZ+WVUHtPMpw8wzWq0vBPavqqVJzhxyvhB4Z1XNSnIi8EHg6DZuo6raa5i1JEnSMFbJgEUvEFxQVXcBVNWvW/uuwKva8ReBj/SN+WpVPQbckuTZrW1/4PNV9dCQeV7cgtVGwIbApa39POAgegHrdcCnkmwI7Aacn2RwrXVHqPtrVfUb4DdtZ2hneqHvS1W1FLij7QTtBCwcMvbyqroXIMktwHOBnw3pswj4aJKTgYuranb/xTHUen6r4wnnLahtVFWzWvsXgPP7+p03wv2S5AjgCIDNNttspG6SJE0oq2rAClBj6Nff5+Eh40eb50xgZlUtSHIYsHdrvwj4cNvp2hH4Lr3dqHsGd5GWo57B8wzXcRj99S9lmD+bqvphkh2Bl7U6L6uqE/u6rLWMWh9cxvlIRuxXVafT2zVjYGBgLH9mkiSt8VbVb7AuB16b5JkAfa/2rqG3swRwCPC9ZcxzGfDmJOsPmWcycHuSddo8AFTVA8ANwL/R2yFaWlX3AT9N8po2R5JsN8J6r0iyXqt7b+BG4CrgoCSTkkwF9mxrjNUjrU6SbAI8VFVnAx8FdujvuJy19o+7F7g7yR6t6Y3ArFGGSJKkUaySO1hVdXOSDwGzkiwFbgIOA44CPpfkWOBO4PBlzPOtJDOAOUl+C3yD3t/K+3vgeuC/6b12m9w37Dx6r8f27ms7BPh0kvcD6wDnAguGWfIG4BJgM+Afq+qXSb5C79XmAno7WsdV1f9LMn1MD6O3O7QwyTzgLOCUJI8BjwBvG6b/WGsd6lDgMy2M/oRlPFtJkjSyVPlWpwtJTgAeqKqPjnct42VgYKDmzJkz3mVIkrRSJJlbVQPDXVtVXxFKkiSttlbJV4Sro6o6YbxrkCRJqwZ3sCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsFZBSU5Msn87PjrJ+uNdkyRJGjsD1iqoqj5QVd9pp0cDnQesJJNGOx/rOEmS9LsMWE2SNyVZmGRBki+2tucmuby1X55ks9Z+ZpLTklyT5CdJDuyb57gki9o8J7W2tya5sbVdmGT9JFOS3JZkrdZn/SQ/S7JOm//AJEcBmwBXJLkiyVuSnNq31luT/Osw9/LSJNcmmZfk/CQbtvbbknwgyfeA1wxzfnCrfXGSk/vme6Dtql0P7LoCHr8kSWsUAxaQZGvgfcC+VbUd8K526RPAWVW1LXAOcFrfsGnA7sCfA4NB6s+AmcAubZ6PtL5frqqdWtv3gbdU1b3AAmCv1ucvgEur6pHBBarqNOCXwD5VtQ9wLvDyJOu0LocDnx9yLxsD7wf2r6odgDnA3/R1WVJVu1fVuf3nwFXAycC+wAxgpyQzW58NgMVVtUtVfW/UhylJkgxYzb7ABVV1F0BV/bq17wr8Zzv+Ir1ANeirVfVYVd0CPLu17Q98vqoeGjLPi5PMTrIIOATYurWfBxzUjl/XzkdUVQ8C3wX+PMmWwDpVtWhItz8CtgKuTjIfOBR4bt/1oWsMnu8EXFlVd1bVo/QC5Z7t2lLgwuFqSnJEkjlJ5tx5552jlS9J0oSx9ngXsIoIUGPo19/n4SHjR5vnTGBmVS1Ichiwd2u/CPhwkmcAO9ILT8tyBvB3wK0M2b3qq+HbVXXwCOMfHOE8Qzv2WVJVS4e7UFWnA6cDDAwMjOUZSpK0xnMHq+dy4LVJngnQAg/ANfR2lqC387Ss12OXAW8e/Ft/ffNMBm5vr/YOGexcVQ8ANwD/Blw8Qoi5v40fHHM98Bzg9cCXhul/HfCSJC9oNayf5IXLqBvgemCvJBu3D9kPBmaNYZwkSRrCHSygqm5O8iFgVpKlwE3AYcBRwOeSHAvcSe+bp9Hm+VaSGcCcJL8FvkFvt+nv6QWY/wYW0ReY6L2iO5/Hd7WGOh34ZpLb23dYAP8FzKiqu4ep4c62S/alJOu25vcDP1xG7bcneS9wBb3drG9U1ddGGyNJkoaXKt/qrG6SXAycWlWXj3ct/QYGBmrOnDnjXYYkSStFkrlVNTDcNV8RrkaSbJTkh8BvVrVwJUmSHucrwtVIVd0DjOV7KkmSNI7cwZIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwFpBkmyU5O3jXYckSVr5DFgrzkbAKhuwkkwa7XyEMUnifzOSJC3Dav8/yyRvSrIwyYIkX2xtz01yeWu/PMlmrf3MJJ9OckWSnyTZK8nnknw/yZl9cz6Q5F+SzGvjp7b2tya5sa11YZL1W/uzk3yltS9IshtwErB5kvlJTkmyd5Irk1yQ5NYk5yRJG79jkllJ5ia5NMm01n5UklvafZzb2vZqc85PclOSycM8kzckuaH1+ffB8NTu68Qk1wO7DnP+N0kWt19HtzHT2/P5FDAPeM6K+HOUJGlNsloHrCRbA+8D9q2q7YB3tUufAM6qqm2Bc4DT+ob9PrAv8G7g68CpwNbANklmtD4bAPOqagdgFvDB1v7lqtqprfV94C2t/TRgVmvfAbgZOB74cVXNqKpjW7/tgaOBrYDnAy9Jsg7wceDAqtoR+Bzwodb/eGD7dh9HtrZjgL+uqhnAHsBvhjyTPwQOAl7S+iwFDum7r8VVtUtVfa//vM1zOLAL8EfAW5Ns38a9qD3P7avqv5EkSaNarQMWvaB0QVXdBVBVv27tuwL/2Y6/COzeN+brVVXAIuCOqlpUVY/RC0XTW5/HgPPa8dl941+cZHaSRfRCy9Z9dXy61bC0qu4dod4bqurnbb35bb0XAS8Gvp1kPvB+4A9a/4XAOUneADza2q4G/jXJUcBGVfUoT7QfsCNwY5tvP3phDnph68K+vv3nuwNfqaoHq+oB4Mv0AhzAf1fVdcPdUJIjksxJMufOO+8c4bYlSZpYxhywkjwtyYtWZDFPQoAaQ7/+Pg+33x/rOx48X3sZ488E3lFV2wD/AKw35kqfuDb0ws3a9O7h5rbTNaOqtqmql7Y+BwCfpBeY5iZZu6pOAv4SeBpwXZIth6wR4At9872oqk5o15ZU1dK+vv3nGaXuB0e6UFWnV9VAVQ1MnTp1lCkkSZo4xhSwkvwFvR2Xb7XzGUkuWoF1jdXlwGuTPBMgyTNa+zXA69rxIcD3lnPetYAD2/Hr+8ZPBm5vr/UO6et/OfC2VsOkJE8H7m/9l+UHwNQku7bx6yTZun1M/pyqugI4jt5H8xsm2bztup0MzAGGBqzLgQOTPKvN94wkzx1DHVcBM5Osn2QD4JXA7DGMkyRJQ4x1B+sEYGfgHoCqms/jr9PGTVXdTO97pVlJFgD/2i4dBRyeZCHwRh7/NmusHgS2TjKX3uu/E1v73wPXA98Gbu3r/y5gn/bqcC6wdVX9D3B1+2D8lFHu4bf0wtzJ7R7mA7sBk4Cz25w3AadW1T3A0W3OBfS+m/rmkPluofea8bJ2/98Gpi3rhqtqHr0duhvaPZ5RVTcta5wkSfpd6X2OtIxOyfVVtUuSm6pq+9a2sH18vcZJ8kBVbTjedaxuBgYGas6cOeNdhiRJK0WSuVU1MNy1kb45GmpxktcDk5JsQW+H6JquCpQkSVqTjPUV4Tvp/Y25h+n97bx76f24gTWSu1eSJOmpWOYOVvshlRdV1f70fuaUJEmSRrHMHaz21/gfSjJlJdQjSZK02hvrN1hLgEVJvk3fz0SqqqNWSFWSJEmrsbEGrEvaL0mSJC3DmAJWVX1hRRciSZK0phhTwEryU4b5J2mq6vnDdJckSZrQxvqKsP+HaK0HvAZ4xgh9JUmSJrQx/Rysqvqfvl+/qKqP0fsnZCRJkjTEWF8R7tB3uha9Ha2x/EPGkiRJE85YXxH+S9/xo8BPgdd2X44kSdLqb6wB6y1V9ZP+hiTPWwH1SJIkrfbG+m8RXjDGNkmSpAlv1B2sJFvS+0eepyR5Vd+lp9P724SSJEkaYlmvCF8E/DmwEfAXfe33A29dQTVJkiSt1kYNWFX1NeBrSXatqmtXUk1aTS36xb3jXYIkSauEsX7kflOSv6b3uvB/Xw1W1ZtXSFWSJEmrsbF+5P5F4P8AfwLMAv6A3mtCSZIkDTHWgPWCqvp74MH2Dz8fAGyz4sqSJElafY01YD3Sfr8nyYuBKcD0FVKRJEnSam6s32CdnuT3gb8HLgI2BD6wwqqSJElajY0pYFXVGe1wFvD8FVeOJEnS6m9MrwiTPDvJfyT5ZjvfKslbVmxpkiRJq6exfoN1JnApsEk7/yFw9AqoR5IkabU31oC1cVX9F/AYQFU9CixdYVVJkiStxsYasB5M8kygAJL8ETDhf2x3kulJXt93fliST4xnTZIkafyNNWD9Db2/Pbh5kquBs4B3rrCqVh/Tgdcvq9OqJsnao52PMm7SiqlIkqQ1y6gBK8lmAFU1D9gL2A34K2Drqlq44stbfkk2SHJJkgVJFic5qLXfluSfk1ybZE6SHZJcmuTHSY5sfZLklDZuUd/YYduBk4A9ksxP8u7WtkmSbyX5UZKP9NX1QJIPtbquS/Ls1j41yYVJbmy/XtLa92rzzk9yU5LJSaYluaq1LU6yxzD3v2OSWUnmtvub1tqvbPc/C3jXMOf7tXUWJflcknX7ntsHknwPeE33f2KSJK15lrVz8VVgh3Z8XlW9esWW04k/BX5ZVQcAJJnSd+1nVbVrklPpfbj/Enr/tuLNwGeAVwEzgO2AjYEbk1xFL1gO1348cExV/Xlb67DWb3vgYeAHST5eVT8DNgCuq6r3teD1VuCfgH8DTq2q77VAeynwh8AxwF9X1dVJNgSWAEcAl1bVh9pu0vr9N55kHeDjwCuq6s4WBD8EDP6bkRtV1V6t718MnidZD/gRsF9V/TDJWcDbgI+1cUuqavfl+UOQJGkiW1bASt/x6vLzrxYBH01yMnBxVc3uu3ZRX58Nq+p+4P4kS5JsBOwOfKmqlgJ3tN2dnUZpv2+Y9S+vqnsBktwCPBf4GfBb4OLWZy7wx+14f2Cr5H8f9dOTTAauBv41yTnAl6vq50luBD7XgtRXq2r+kLVfBLwY+HabbxJwe9/184b0P69v3E+r6oft/AvAX/N4wBo67n8lOYJe8GPS06eO1E2SpAllWd9g1QjHq6wWEnakF6I+nKT/J84/3H5/rO948Hxtnhgo+43UPpz+eZfyeIh9pKpqmPa1gF2rakb7tWlV3V9VJwF/CTwNuC7JllV1FbAn8Avgi0neNEydN/fNtU1VvbTv+oND+j/YN240Q8f9r6o6vaoGqmpg0vpTRuomSdKEsqyAtV2S+5LcD2zbju9Lcn+S4XZvxl2STYCHqups4KM8/opzLK4CDkoyKclUemHmhlHa7wcmP8WSLwPe0Vf/jPb75lW1qKpOBuYAWyZ5LvCrqvos8B/D3NsPgKlJdm1zrJNk6zHUcCswPckL2vkb6f3UfkmS9CSM+oqwqlbHvzW2DXBKksfo/SPVb1uOsV8BdgUW0NuxO66q/l+Skdr/B3g0yQJ633Td/STqPQr4ZJKF9P48rgKOBI5Osg+93a5bgG8CrwOOTfII8ADwhB2sqvptkgOB09q3Z2vTe81382gFVNWSJIcD56f3NwpvpPdNmiRJehLy+Fsr6alZd9oW9fDtPxrvMiRJWimSzK2qgeGujfXnYEmSJGmMDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWOrMNpv6jz1LkgQGLEmSpM4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsBSZxb94t7xLkGSpFWCAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsFYxSSathDXWHu18rOMkSdLw/B/mSpTkq8BzgPWAf6uq01v7A8C/An8CvCfJdOAo4PeA64G3V9XSJJ8GdgKeBlxQVR8cZo3NgU8CU4GHgLdW1a1JzgR+DWwPzEvyzCHnXwQ+A6wP/Bh4c1XdneRK4BrgJcBFwL90/FgkSVrjuIO1cr25qnYEBoCjWsgB2ABYXFW7AP8DHAS8pKpmAEuBQ1q/91XVALAtsFeSbYdZ43TgnW2dY4BP9V17IbB/Vb1nmPOzgL+tqm2BRUB/eNuoqvaqKsOVJElj4A7WynVUkle24+cAW9ALVEuBC1v7fsCOwI1JoLdb9at27bVJjqD35zYN2ApYODh5kg2B3YDz21iAdfvWP7+qlg49TzKFXoia1dq/AJzf1++8kW6o1XMEwKSnTx315iVJmigMWCtJkr2B/YFdq+qh9uptvXZ5SV/wCfCFqnrvkPHPo7cjtVN7dXdm3/hBawH3tJ2v4Ty4jPORjNivveY8HWDdaVvUGOeTJGmN5ivClWcKcHcLV1sCfzRCv8uBA5M8CyDJM5I8F3g6vaBzb5JnA382dGBV3Qf8NMlr2tgk2W5ZhVXVvcDdSfZoTW8EZo0yRJIkjcIdrJXnW8CRSRYCPwCuG65TVd2S5P3AZUnWAh4B/rqqrktyE3Az8BPg6hHWOQT4dJtjHeBcYMEY6jsU+EyS9dv8h4/91iRJUr9U+VZH3Vh32hb18O0/Gu8yJElaKZLMbX/57Hf4ilCSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLHVmm02njHcJkiStEgxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWE9RkiOTvKmjuf6ui3kkSdL4MmA9BUnWrqrPVNVZHU253AEryaQnMWbt0c7HOk6SJA1vQv8PM8l04FvA9cD2wA+BN1XVQ0l2BP4V2BC4Czisqm5PciVwDfAS4KIkk4EHquqj7dpNwI7AVOBNwHuBbYDzqur9bd03AEcBv9fWfjvwIeBpSeYDN1fVIcP1q6qlSR5otf0J8B7ge333tDnwybb+Q8Bbq+rWJGcCv273OS/JM4ecfxH4DLA+8GPgzVV199D7Bf7lKT52SZLWeO5gwYuA06tqW+A+4O1J1gE+DhxYVTsCn6MXgAZtVFV7VdVwYeO3VbUnvbDyNeCvgRcDhyV5ZpI/BA4CXlJVM4ClwCFVdTzwm6qa0cLVsP3aGhsAi6tql6r6Hk90OvDOVvcxwKf6rr0Q2L+q3jPM+VnA37bnsAj44BjvV5IkDTGhd7Can1XV1e34bHo7Rt+iF4q+nQRgEnB735jzRpnvovb7Ino7UbcDJPkJ8Bxgd3o7XDe2uZ8G/GqYefYbpd9S4MKhA5JsCOwGnN/GAKzb1+X8qlo69DzJFHohalZr/wJw/ljuN8kRwBEAm2222UjdJEmaUAxYUMOch1442nWEMQ+OMt/D7ffH+o4Hz9duc3+hqt67jLpG67dkSFAatBZwT9vxGs7Quke7jzH1q6rT6e2aMTAwMPRZSpI0IfmKEDZLMhikDqb3PdMPgKmD7UnWSbJ1R+tdDhyY5Flt7mckeW679kh7PbmsfsOqqvuAnyZ5TRuTJNstq6Cquhe4O8keremNwKxRhkiSpFEYsOD7wKFJFgLPAD5dVb8FDgROTrIAmE/v1dtTVlW3AO8HLmtrfhuY1i6fDixMcs4y+o3mEOAtre6bgVeMsbRDgVPaWjOAE8c4TpIkDZGqiftWp/0twour6sXjXcuaYGBgoObMmTPeZUiStFIkmVtVA8NdcwdLkiSpYxP6I/equo3e3xaUJEnqjDtYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdWzt8S5Aa45Fv7iX6cdfstLWu+2kA1baWpIkLQ93sCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgB60lIslGStz+F8TOSvKzLmiRJ0qrDgPXkbAQ86YAFzACWK2Clp7M/rySTRjsf6zhJkvS7DFhPzknA5knmJzkFIMmxSW5MsjDJP7S2Vyb5TgtH05L8MMlmwInAQW38QUlOSHLM4ORJFieZ3n59P8mngHnAc4ZbZ6gkL01ybZJ5Sc5PsmFrvy3JB5J8D3jNMOcHJ1nU1j+5b74HkpyY5Hpg1xXzSCVJWnMYsJ6c44EfV9WMqjo2yUuBLYCd6e1O7Zhkz6r6CvD/gL8GPgt8sKr+P+ADwHlt/HnLWOtFwFlVtX07/p11+jsn2Rh4P7B/Ve0AzAH+pq/LkqravarO7T8HrgJOBvZtc++UZGbrswGwuKp2qarvDVnviCRzksxZ+tC9y7gVSZImhrXHu4A1xEvbr5va+Yb0gtBVwDuBxcB1VfWlJzH3f1fVdWNYZ9AfAVsBVycB+D3g2r7rQwPd4PlOwJVVdSdAknOAPYGvAkuBC4crrqpOB04HWHfaFrV8tyZJ0prJgNWNAB+uqn8f5tqmwGPAs5OsVVWPDdPnUZ64m7he3/GDY1ynv8+3q+rgEa4/OMJ5RplzSVUtHeW6JEnq4yvCJ+d+YHLf+aXAm/u+ddo0ybOSrA18Hng98H0ef1U3dPxtwA5t7A7A80ZYd9h1hvS5DnhJkhe0PusneeEY7ul6YK8kG7cP2Q8GZo1hnCRJGsIdrCehqv4nydVJFgPfbN9h/SFwbXst9wDwBuBIYHZVzU4yH7gxySXAFcDxre3D9F6/vWmwD/DDEda9bIR1ftXX584khwFfSrJua37/SHP2jbs9yXtbbQG+UVVfW74nI0mSAFLlZzPqxrrTtqhph35spa1320kHrLS1JEkaKsncqhoY7pqvCCVJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjvmT3NWZbTadwhx/+KckSe5gSZIkdc2AJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxf0yDOrPoF/cy/fhLfqf9Nn90gyRpgnEHS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwxlGSvZNc3I5fnuT48a5JkiQ9df5bhB1LEiBV9djyjKuqi4CLVkxVT5Rk7ap6dKTzUcZNqqqlK7Y6SZJWf+5gdSDJ9CTfT/IpYB7wnCSfTjInyc1J/qGv758muTXJ94BX9bUfluQT7fjMJAf2XXug/T4tyVVJ5idZnGSPYWrZMcmsJHOTXJpkWmu/Msk/J5kFvGuY8/2S3JRkUZLPJVm3jbstyQdava9ZEc9PkqQ1jTtY3XkRcHhVvR0gyfuq6tdJJgGXJ9kW+CHwWWBf4P8C5y3nGq8HLq2qD7V51++/mGQd4OPAK6rqziQHAR8C3ty6bFRVe7W+fzF4nmQ94EfAflX1wyRnAW8DPtbGLamq3YcrKMkRwBEAk54+dTlvR5KkNZM7WN3576q6ru/8tUnmATcBWwNbAVsCP62qH1VVAWcv5xo3AocnOQHYpqruH3L9RcCLgW8nmQ+8H/iDvutDA915feN+WlU/bOdfAPYcZdz/qqrTq2qgqgYmrT9lee5FkqQ1ljtY3Xlw8CDJ84BjgJ2q6u4kZwLrtcs1hrkepYXf9k3X7wFU1VVJ9gQOAL6Y5JSqOqtvXICbq2rXZdU45DzLqGfoOEmSNAp3sFaMp9MLJfcmeTbwZ639VuB5STZv5wePMP42YMd2/ApgHYAkzwV+VVWfBf4D2GHIuB8AU5Ps2vqvk2TrMdR7KzA9yQva+RuBWWMYJ0mShuEO1gpQVQuS3ATcDPwEuLq1L2nfLF2S5C7ge/Re6Q31WeBrSW4ALufxHaS9gWOTPAI8ALxpyLq/bR/Hn5ZkCr0/34+1Okard0mSw4Hzk6xN71XkZ5b7xiVJEtD7cQLjXYPWEOtO26KmHfqx32m/7aQDVn4xkiStYEnmVtXAcNd8RShJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyf5K7ObLPpFOb4Q0UlSXIHS5IkqWsGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKlja2TASrJlkvlJbkqy+VOca0aSl42h395JLh5DvyuTDLTjbyTZ6KnU92QkOTHJ/it7XUmSJoo1MmABM4GvVdX2VfXjwcb0LO89zwCWGbCejKp6WVXdsyLmXsa6H6iq76zsdSVJmihWSMBKMj3JrUnOSLI4yTlJ9k9ydZIfJdm59dsgyeeS3Nh2m17RN352knnt126tfe+2A3RBm/+cJBmy9suAo4G/THJFm+v7ST4FzAOek+TTSeYkuTnJP/SN3SnJNUkWJLkhyRTgROCgtiN2UJKdW5+b2u8vWsazeFqSc5MsTHIe8LS+a7cl2biD53VYki8n+Vbr/5HWPinJmW3ORUne3drPTHJgO96vzbWozb1uX23/0J7/oiRbPtn/HiRJmmjWXoFzvwB4DXAEcCPwemB34OXA39HbZXof8N2qenN7VXZDku8AvwL+uKqWJNkC+BIw0ObdHtga+CVwNfAS4HuDi1bVN5J8Bnigqj6aZDrwIuDwqno7QJL3VdWvk0wCLk+yLXArcB5wUFXdmOTpwEPAB4CBqnpHG/t0YM+qerS9Zvtn4NWjPIe3AQ9V1bZtnXkr4HlBb6dte+Bh4AdJPg48C9i0ql7cat+of8Ek6wFnAvtV1Q+TnNXq/VjrcldV7ZDk7cAxwF8OLTrJEa1mNttss1EegyRJE8eKfEX406paVFWPATcDl1dVAYuA6a3PS4Hjk8wHrgTWAzYD1gE+m2QRcD6wVd+8N1TVz9u88/vmGs1/V9V1feevTTIPuIleWNuKXgi7vapuBKiq+6rq0WHmmgKcn2QxcGobP5o9gbPbnAuBhSP0eyrPi9b/3qpaAtwCPBf4CfD8JB9P8qfAfUPWfFFb94ft/Aut3kFfbr/PZYTnXFWnV9VAVQ1MnTp1xIcgSdJEsiJ3sB7uO36s7/yxvnUDvLqqftA/MMkJwB3AdvRC4JIR5l3K2O7hwb65n0dvN2anqro7yZn0gkqAGsNc/whcUVWvbLtjV45hzFjmfSrPaxeGeS7t/rYD/gT4a+C1wJv7h46xprE+Z0mSxPh/5H4p8M7B76iSbN/ap9DbTXoMeCMwqcM1n04vcN2b5NnAn7X2W4FNkuzUapmcZG3gfmBy3/gpwC/a8WFjWO8q4JA254uBbZ9C7SM9r2El2RhYq6ouBP4e2GFIl1uB6Ule0M7fCMx6CvVJkiTGP2D9I73XgQvbK7d/bO2fAg5Nch3wQvp2oJ6qqlpA79XgzcDn6H3HRVX9FjgI+HiSBcC36e1sXQFsNfiRO/AR4MNJrmZswe/TwIZJFgLHATc8hfJHel4j2RS4sr1SPBN4b//F9jrxcHqvPBfR2y37zFOoT5IkAel95iM9dQMDAzVnzpzxLkOSpJUiydyqGhju2njvYEmSJK1xDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BNUEmmJ3n9eNchSdKayIA1cU0Hhg1YSdZeuaVIkrRmmTABq+3Y3JrkjCSLk5yTZP8kVyf5UZKdW78NknwuyY1Jbkryir7xs5PMa792a+17J7kyyQVt/nOSZJj1j0pyS5KFSc5NslZbd2q7vlaS/5tk4yRnJvl0kiuS/CTJXq2m7yc5s2/OB5KcnGRuku8k2bnV8pMkL299JiU5pd3PwiR/1YafBOyRZH6Sdyc5LMn5Sb4OXJbki4P33uY5Z3BOSZI0ugkTsJoXAP8GbAtsSW8HZ3fgGODvWp/3Ad+tqp2AfYBTkmwA/Ar446raATgIOK1v3u2Bo4GtgOcDLxlm7eOB7atqW+DIqnoMOBs4pF3fH1hQVXe1898H9gXeDXwdOBXYGtgmyYzWZwPgyqraEbgf+Cfgj4FXAie2Pm8B7m33sxPw1iTPa/XMrqoZVXVq67srcGhV7QucARwOkGQKsBvwjaE3leSIJHOSzLnzzjuHuW1JkiaeiRawflpVi1q4uRm4vKoKWETvlRnAS4Hjk8wHrgTWAzYD1gE+m2QRcD69MDXohqr6eZt3ft9c/RYC5yR5A/Boa/sc8KZ2/Gbg8339v95X2x1D6h6c/7fAt9rxImBWVT0yzP28qd3P9cAzgS1GeD7frqpfA1TVLOAFSZ4FHAxcWFWPDh1QVadX1UBVDUydOnWEaSVJmlgm2rc2D/cdP9Z3/hiPP4sAr66qH/QPTHICcAewHb1gumSEeZcy/HM9ANgTeDnw90m2rqqfJbkjyb7ALjy+m9U/Z3+dQ2t9pIWwJ/Srqsf6vqMK8M6qunTI/ew9TI0PDjn/YqvpdfQCoCRJGoOJtoM1FpcC7xz8jirJ9q19CnB720V6IzBprBMmWQt4TlVdARwHbARs2C6fQe9V4X9V1dJO7uCJLgXelmSdVssL2yvP+4HJyxh7Jr1Xn1TVzSugNkmS1kgGrN/1j/ReBy5MsridA3wKODTJdcAL+d3dntFMAs5urxdvAk6tqnvatYvoha3PjzD2qToDuAWY1+7n3+ntgC0EHk2yIMm7hxtYVXcA31+BtUmStEbK42+YNB6SDNALXHuMdy1DJVmf3vdcO1TVvcvqPzAwUHPmzFnxhUmStApIMreqBoa75g7WOEpyPHAh8N7xrmWoJPsDtwIfH0u4kiRJj5toH7mvUqrqJHo/j2qVU1Xfofe3JyVJ0nJyB0uSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAWuCSHJGkq2W0WfmsvpIkqRlM2BNEFX1l1V1yzK6zQQMWJIkPUWrRMBKMj3JrW2XZXGSc5Lsn+TqJD9KsnPrt0GSzyW5MclNSV7RN352knnt126tfe8kVya5oM1/TpIMs/4LknwnyYI2fvP0nNLqWZTkoGXNmWSnJNe0eW5IMnmU2s5L8rK+Gs5M8uokk9q6NyZZmOSvRnleX2h9Lkiyfru2X3s2i9qzWre1X5lkoB0/kORDrc7rkjy71fVy4JQk89szOCrJLW2Nc7v8M5ckaU22SgSs5gXAvwHbAlsCrwd2B44B/q71eR/w3araCdiHXhjYAPgV8MdVtQNwEHBa37zbA0fT25l5PvCSYdY+B/hkVW0H7AbcDrwKmAFsB+zf1po20pxJfg84D3hXm2d/4Dej1HZuO6eN3Q/4BvAW4N52jzsBb03yvGFqfhFwelVtC9wHvD3JesCZwEFVtQ2wNvC2YcZuAFzX6rwKeGtVXQNcBBxbVTOq6sfA8cD2bY0jh5mHJEckmZNkzp133jlcF0mSJpxVKWD9tKoWVdVjwM3A5VVVwCJgeuvzUuD4JPOBK4H1gM2AdYDPJlkEnM8TX3PdUFU/b/PO75sLgCSTgU2r6isAVbWkqh6iF+6+VFVLq+oOYBa9wDPSnC8Cbq+qG9s891XVo6PU9k1g37bD9GfAVVX1m3aPb2r3eD3wTGCLYZ7Xz6rq6nZ8dqv3Re05/rC1fwHYc5ixvwUubsdzhz6TPguBc5K8AXh0uA5VdXpVDVTVwNSpU0eYRpKkiWXt8S6gz8N9x4/1nT/G43UGeHVV/aB/YJITgDvo7TatBSwZYd6l/O49/84rw2W0jzRngBqm77uHq62qliS5EvgTejtZX+pb951Vdeko6zPMWrWMmvs90sJrf/3DOYBeQHs58PdJtm6hUZIkjWJV2sEai0uBd/Z987R9a59Cb/foMeCNwKSxTlhV9wE/TzKzzblu+57pKuCg9k3UVHpB44ZRproV2CTJTm2eyUnWXkZt5wKHA3u0exu8x7clWafN88L2GnSozZLs2o4PBr7Xapie5AWt/Y30dt7G6n5gclt3LeA5VXUFcBywEbDhcswlSdKEtboFrH+k98ptYZLF7RzgU8ChSa4DXgg8uJzzvhE4KslC4Brg/wBfofeKbAHwXeC4qvp/I01QVb+ltxP18SQLgG/Te4U5Wm2X0Qtu32njAc4AbgHmtXv8d4bfYfp+m3ch8Azg01W1hF5gO7+9knwM+MxyPIdzgWOT3ETvteTZbZ6bgFOr6p7lmEuSpAkrj78p0uoiyXTg4qp68XjX0m9gYKDmzJkz3mVIkrRSJJlbVQPDXVvddrAkSZJWeavSR+4ao6q6DVildq8kSdLj3MGSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnq2NrjXYDWHIt+cS/Tj7/kf89vO+mAcaxGkqTx4w6WJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BNYEkGkpzWjvdOstt41yRJ0prAf4twAquqOcCcdro38ABwzbgVJEnSGmLC7WAlmZ7k1iRnJFmc5Jwk+ye5+v9v796j7Srrc49/HwMSuRhEURGbRgGloJDIBhVRUZGjooACJxaKICpHO8Rqi9ahp+egeMHiaPFyGBQZlDrMQAteqqiAXMJVTAKEJCiINZwWoVCPFhAJSvI7f6w3stzsy9ph7mx39vczxh5Zc853vu/vnSuEJ++cWSvJbUn2ae22SnJ2kqVJbkxySN/5VyW5of3s2/bvn2RxkvNb/4uSZITxd05ySZKb2vk7pefUVs/KJAvH6zPJ3kmubf0sSbLNGLV9Jcnr+mo4J8lhrf8LkswD3gm8L8nyJC9NsjrJ5q39E5Pcvn5bkiSNbaauYO0MHAEcDywFjgT2Aw4GPgQcCnwYuKyqjkuyLbAkySXAPcCrq2pNkl2Ac4Gh1u8CYHfgTuAa4CXA1cPGXgScUlVfTzKbXsh9EzAf2BN4CrA0yZWj9ZlkCfAVYGFVLU3yRODBMWr7MrAQ+E6SxwOvAt4FvBCgqm5Pcgbwq6r6NECSxcBBwDeANwNfrarfDr+QSY5v15FZT9x+vOsuSdKMMONWsJrVVbWyqtYBNwOXVlUBK4F5rc2BwAeTLAcWA7OBucDmwBeSrATOA3br63dJVd3R+l3e1xcASbYBdqyqrwNU1Zqq+jW9cHduVa2tqruBK4C9x+jzucBdVbW09XNfVT08Rm3fBV6ZZAvgtcCVVfXgONfoLOCt7fVbgX8cqVFVnVlVQ1U1NGvLOeN0KUnSzDBTV7Ae6nu9rm97HY9ckwCHVdWt/ScmOQm4m95q0+OANaP0u5ZHX99H3TIcZ/9ofQaoEdq+b6Ta2orWYuC/0VvJOneM8WjnXNNuOb4cmFVVq8Y7R5Ik9czUFaxBXASc0PfM04K2fw691aN1wNHArEE7rKr7gDuSHNr63CLJlsCVwMIks5JsD7wMWDJGV7cAz0iyd+tnmySbjVPbl+mtRL20zW24+4Fthu37Ir0wNuLqlSRJGpkBa3Qn07vltiLJqrYNcDpwTJLrgOcAD0yw36OB9yRZQe9f7D0d+DqwArgJuAz4QFX9x2gdVNVv6K1EfS7JTcD36N3CHKu2i+kFt0va+cN9C3jj+ofc275FwJMYYMVLkiQ9Ir1Hj6RHS3I4cEhVHT1I+y122KV2OOa0323ffspBk1SZJElTL8n1VTU00rGZ+gyWxpHkc/QeiH/deG0lSdLvM2BpRFV1wlTXIEnSdOUzWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zI9pUGeev+MclvnhopIkuYIlSZLUNQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DED1iYiybFJnjHVdUiSJAPWpuRYwIAlSdIfgGkVsJLMS3JLkrOSrEqyKMkBSa5JcluSfVq7rZKcnWRpkhuTHNJ3/lVJbmg/+7b9+ydZnOT81v+iJBlh/J2TXJLkpnb+Tuk5tdWzMsnCvj6vSPLPSX6c5JQkRyVZ0trt1Nqdk+SMVtePk7x+rFrbsQ+0Pm5q/R4ODAGLkixP8oQktyf5SDt3ZZJdx7k2u7falidZkWSX1vbbbZxV6+cmSZLGttlUF7ABdgaOAI4HlgJHAvsBBwMfAg4FPgxcVlXHJdkWWJLkEuAe4NVVtSbJLsC59IIJwAJgd+BO4BrgJcDVw8ZeBJxSVV9PMpteQH0TMB/YE3gKsDTJla39nsCfAL8AfgqcVVX7JPkL4ATgva3dPODlwE7A5Ul2Hq3WJK9tc3xhVf06yXZV9Ysk7wZOrKplAC0f/ryqXpDkz4ETgbePcW3eCXymqhYleTwwC3gdcGdVHdT6nDP8zUhyfHsvmDt37ghvlyRJM8+0WsFqVlfVyqpaB9wMXFpVBaykF1QADgQ+mGQ5sBiYDcwFNge+kGQlcB6wW1+/S6rqjtbv8r6+AEiyDbBjVX0doKrWVNWv6YW7c6tqbVXdDVwB7N1OW1pVd1XVQ8C/Ahe3/SuH9f/PVbWuqm6jF8R2HaPWA4B/bGNTVb8Y41p9rf16/QDX5vvAh5L8NfDHVfVgq/OAJJ9K8tKqunf4AFV1ZlUNVdXQ9ttvP0YpkiTNHNNxBeuhvtfr+rbX8ch8AhxWVbf2n5jkJOBueitLjwPWjNLvWh59bR51y3Cc/YPWClDDzivgfaPUmhHajzd+/3xGvDbAj5L8ADgIuCjJ26vqsiR70VvJ+mSSi6vqowOOLUnSjDUdV7AGcRFwwvrnqJIsaPvnAHe1Vaqj6d0GG0hV3QfckeTQ1ucWSbYErgQWJpmVZHvgZcCSCdZ7RJLHteeyng3cOkatFwPHtbFJsl3bfz+wzQBjjXhtkjwb+GlVfRb4JrBHev8q8ddV9SXg08ALJjgvSZJmpE01YJ1M7xbbiiSr2jbA6cAxSa4DngM8MMF+jwbek2QFcC3wdODrwArgJuAy4ANV9R8T7PdWercWvwu8s6rWjFZrVV1ILwAta7f5Tmx9nAOcsf4h9zHGGu3aLARWtT53Bb4IPJ/eM1rL6T279bEJzkuSpBkpvceXNFWSnANcUFXnT3Utj9XQ0FAtW7ZsqsuQJGmjSHJ9VQ2NdGxTXcGSJEmaMtPxIfdNSlUdO9U1SJKkbrmCJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1LHNproAbTpW/uxe5n3w27+37/ZTDpqiaiRJmjquYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DED1jSS5L1Jtuzb/tVU1iNJkkZmwJpe3gtsOV4jSZI0taZ9wEoyL8ktSc5KsirJoiQHJLkmyW1J9mnttkpydpKlSW5Mckjf+VcluaH97Nv2759kcZLzW/+LkmSE8d+T5IdJViT5ctt3UpJ/SnJxktuTvCnJ3yZZmeTCJJu3dq9qtaxstW0x2v4k7wGeAVye5PK+8T+e5KYk1yV5Wtt3TpLPJrk2yU+THN7X/v3tGqxI8pG+a/Pt1s+qJAvb/lP65vbpyXj/JEnaFE37gNXsDHwG2APYFTgS2A84EfhQa/Nh4LKq2ht4BXBqkq2Ae4BXV9ULgIXAZ/v6XUBv1Wg34NnAS0YY+4PAgqraA3hn3/6dgIOAQ4AvAZdX1fOBB4GDkswGzgEWtv2bAe8abX9VfRa4E3hFVb2ijbEVcF1V7QlcCbyjb/wd2jV4PXAKQJIDgV2AfYD5wF5JXga8BrizqvasqucBFybZDngjsHub28dGmDtJjk+yLMmytb++d6QmkiTNOJtKwFpdVSurah1wM3BpVRWwEpjX2hwIfDDJcmAxMBuYC2wOfCHJSuA8emFqvSVVdUfrd3lfX/1WAIuS/BnwcN/+71bVb1sNs4AL2/71NT231f3jtv+fgJeNsX8kvwEuaK+vH1bfN6pqXVX9EHha3zU4ELgRuIFeGN2l1XRAkk8leWlV3QvcB6wBzkryJuDXIxVQVWdW1VBVDc3acs4oZUqSNLNsNtUFdOShvtfr+rbX8cgcAxxWVbf2n5jkJOBuYE96gXPNKP2uZeTrdRC9AHQw8DdJdu8/t6rWJfltC3z9NT3qdmNfnYPq73d4ff21p+/XT1bVPzxq0GQv4HXAJ5NcXFUfbbdXXwW8GXg38MoJ1CZJ0oy1qaxgDeIi4IT1z1ElWdD2zwHuaqtUR9NbbRpIkscBf1RVlwMfALYFth7w9FuAeUl2bttHA1eMsR/gfmCbQesbwUXAcUm2bvXvmOSpSZ4B/LqqvgR8GnhBazOnqr5D7zbp/McwriRJM8qmsoI1iJOB04AVLWTdTu/5pNOBryY5ArgceGACfc4CvpRkDr3Vob+vqv8a4Vn4R6mqNUneCpyXZDNgKXBGVT000v522pnAd5Pc1fcc1sCq6uIkfwJ8v9X4K+DP6D3DdmqSdcBvgXfRC3L/0p4JC/C+iY4nSdJMlUfuMEmPzRY77FI7HHPa7+27/ZSDpqYYSZImWZLrq2popGMz6RahJEnSRmHAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOzaRPctcke/6Oc1jmB4tKkuQKliRJUtcMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2DNYEk2m+oaJEnaFBmwJkmSeUluSXJWklVJFiU5IMk1SW5Lsk9rt1WSs5MsTXJjkkP6zr8qyQ3tZ9+2f/8ki5Oc3/pflCQjjP+O1udNSb6aZMu2/5wkf5fkcuBTSXZKcmGS69t4u7Z2b0jyg1bTJUmettEuniRJ05wBa3LtDHwG2APYFTgS2A84EfhQa/Nh4LKq2ht4BXBqkq2Ae4BXV9ULgIXAZ/v6XQC8F9gNeDbwkhHG/lpV7V1VewI/At7Wd+w5wAFV9VfAmcAJVbVXq+v01uZq4EVVtQD4MvCBDb0IkiTNNN4imlyrq2olQJKbgUurqpKsBOa1NgcCByc5sW3PBuYCdwKfTzIfWEsvFK23pKruaP0ub31dPWzs5yX5GLAtsDVwUd+x86pqbZKtgX2B8/oWwbZovz4T+EqSHYDHA6tHmmCS44HjAebOnTv21ZAkaYYwYE2uh/per+vbXscj1z7AYVV1a/+JSU4C7gb2pLfSuGaUftcy8vt4DnBoVd2U5Fhg/75jD7RfHwf8V1XNH+H8zwF/V1XfTLI/cNIIbaiqM+mtgjE0NFQjtZEkaabxFuHUuwg4Yf1zVEkWtP1zgLuqah1wNDBrgv1uA9yVZHPgqJEaVNV9wOokR7Sxk2TPvvF/1l4fM8GxJUma0QxYU+9kYHNgRZJVbRt6z0Idk+Q6ercHHxjl/NH8DfAD4HvALWO0Owp4W5KbgJuBQ9r+k+jdOrwK+PkEx5YkaUZLlXd11I2hoaFatmzZVJchSdJGkeT6qhoa6ZgrWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdcyAJUmS1DEDliRJUscMWJIkSR0zYEmSJHXMgDWNJHlGkvM76uvQJLt10ZckSfp9BqxpIslmVXVnVR3eUZeHAhMKWEk262hsSZI2aTMqYCWZl+SWJGclWZVkUZIDklyT5LYk+7R2WyU5O8nSJDcmOaTv/KuS3NB+9m3790+yOMn5rf9FSTLC+IuTnJbk2jb+eOMdm+S8JN8CLm7jr+o79o0k30qyOsm7k/xlO/+6JNu1djsluTDJ9a32XVvdBwOnJlne2jyqXTv/nCR/l+Ry4FOT/R5JkrQpmIkrEjsDRwDHA0uBI4H96AWOD9Fb2fkwcFlVHZdkW2BJkkuAe4BXV9WaJLsA5wJDrd8FwO7AncA1wEuAq0cYf6uq2jfJy4CzgeeNMR7Ai4E9quoXSeYN6+t5bdzZwE+Av66qBUn+HngLcBpwJvDOqrotyQuB06vqlUm+CVxQVecDJLl0eDvglW2c5wAHVNXawS6xJEkz20wMWKuraiVAkpuBS6uqkqwE5rU2BwIHJzmxbc8G5tILT59PMh9YSy94rLekqu5o/S5vfY0UsM4FqKorkzyxBarRxgP4XlX9YpS5XF5V9wP3J7kX+FbbvxLYI8nWwL7AeX0LalsM72SAdueNFq6SHE8vrDJ37tyRmkiSNOPMxID1UN/rdX3b63jkegQ4rKpu7T8xyUnA3cCe9G6vrhml37WMfm1rhO3Rxnsh8MBjmMvjgP+qqvlj9MEA7UatoarOpLdKxtDQ0PC5SZI0I82oZ7Am4CLghPXPUSVZ0PbPAe6qqnXA0cCsDeh7YetzP+Deqrp3jPEek6q6D1id5IjWb5Ls2Q7fD2wzQDtJkjRBBqyRnQxsDqxoD5Wf3PafDhyT5Dp6twfHWl0azS+TXAucAbxtnPG6cBTwtiQ3ATcDh7T9Xwbe3x6K32mMdpIkaYJS5V2djSXJYuDEqlo21bVMhqGhoVq2bJOcmiRJj5Lk+qoaGumYK1iSJEkdm4kPuU+Zqtp/qmuQJEmTzxUsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOrbZVBegTcfKn93LvA9++3fbt59y0BRWI0nS1HEFS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwasP3BJjk3yjMdw/oe6rEeSJI3PgPWH71hggwMWMOGAlcSvUJIk6TEwYI0jybwktyQ5K8mqJIuSHJDkmiS3JdmntdsqydlJlia5MckhfedfleSG9rNv279/ksVJzm/9L0qSYWMfDgwBi5IsT/KEJHsluSLJ9UkuSrJDkjlJbk3y3HbeuUnekeQU4Ant3EWtllV9/Z+Y5KT2enGSTyS5AviLkcbZCJdbkqRNggFrMDsDnwH2AHYFjgT2A07kkRWiDwOXVdXewCuAU5NsBdwDvLqqXgAsBD7b1+8C4L3AbsCzgZf0D1pV5wPLgKOqaj7wMPA54PCq2gs4G/h4Vd0LvBs4J8mbgSdV1Req6oPAg1U1v6qOGmCe21bVy1uNjxpnoCslSZLwVtBgVlfVSoAkNwOXVlUlWQnMa20OBA5OcmLbng3MBe4EPp9kPrAWeE5fv0uq6o7W7/LW19Vj1PFc4HnA99pi1yzgLoCq+l6SI4D/A+y5gfP8ynjjDJfkeOB4gFlP3H4Dh5UkadNiwBrMQ32v1/Vtr+ORaxjgsKq6tf/Edgvubnqh53HAmlH6Xcv470eAm6vqxY86kDwO+BPgQWA74I4Rzn+Y31+1nD3s+APjjTNcVZ0JnAmwxQ671HjtJUmaCbxF2J2LgBPWP0eVZEHbPwe4q6rWAUfTWw2aiPuBbdrrW4Htk7y4jbF5kt3bsfcBPwL+FDg7yeZt/2/7Xt8NPDXJk5NsAbx+lDHHGkeSJI3DgNWdk4HNgRXtQfKT2/7TgWOSXEfv9uADo5w/mnOAM9otxFnA4cCnktwELAf2TfIc4O3AX1XVVcCVwP9s55/ZalpUVb8FPgr8ALgAuGWkAavqNyONM8G6JUmasVLlXR11Y4sddqkdjjntd9u3n3LQ1BUjSdIkS3J9VQ2NdMwVLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjvllz+rM83ecwzI/vV2SJFewJEmSumbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsGaQJLcneUp7fe1U1yNJ0qbKgDXNJdlsQ86rqn27rkWSJPUYsDZAknlJbklyVpJVSRYlOSDJNUluS7JPa7dVkrOTLE1yY5JD+s6/KskN7Wfftn//JIuTnN/6X5QkI4y/OMknklwB/EWSNyT5QRvjkiRPa+2enOTitv8fgPT18au+MS/o2//5JMe216ck+WGSFUk+PWkXVJKkTcwGrX4IgJ2BI4DjgaXAkcB+wMHAh4BDgQ8Dl1XVcUm2BZYkuQS4B3h1Va1JsgtwLjDU+l0A7A7cCVwDvAS4eoTxt62qlwMkeRLwoqqqJG8HPgD8FfC/gaur6qNJDmq1DiTJdsAbgV1bv9sOeq4kSTOdAWvDra6qlQBJbgYubUFkJTCvtTkQODjJiW17NjCXXnj6fJL5wFrgOX39LqmqO1q/y1tfIwWsr/S9fibwlSQ7AI8HVrf9LwPeBFBV307yywnM7z5gDXBWkm8DF4zUKMnxtOA2d+7cCXQvSdKmy1uEG+6hvtfr+rbX8UhwDXBYVc1vP3Or6kfA+4C7gT3prVw9fpR+1zJ6CH6g7/XngM9X1fOB/0EvyK1X48zjYX7/98FsgKp6GNgH+Cq91bgLRzq5qs6sqqGqGtp+++3HGUqSpJnBgDW5LgJOWP8cVZIFbf8c4K6qWgccDcx6jOPMAX7WXh/Tt/9K4Kg29muBJ41w7v8FdkuyRZI5wKta+62BOVX1HeC9wPzHWKMkSTOGtwgn18nAacCKFrJuB14PnA58NckRwOX8/mrUhjgJOC/Jz4DrgGe1/R8Bzk1yA3AF8G/DT6yqf0/yz8AK4DbgxnZoG+BfksymtxL3vsdYoyRJM0aqxruDJA1maGioli1bNtVlSJK0USS5vqqGRjrmLUJJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOmbAkiRJ6pgBS5IkqWMGLEmSpI4ZsCRJkjpmwJIkSeqYAUuSJKljBixJkqSOGbAkSZI6ZsCSJEnqmAFLkiSpYwYsSZKkjhmwJEmSOpaqmuoatIlIcj9w61TXsZE9Bfj5VBexkTnnmcE5zxwzcd5dzfmPq2r7kQ5s1kHn0nq3VtXQVBexMSVZ5pw3fc55ZpiJc4aZOe+NMWdvEUqSJHXMgCVJktQxA5a6dOZUFzAFnPPM4Jxnhpk4Z5iZ8570OfuQuyRJUsdcwZIkSeqYAUsTkuQ1SW5N8pMkHxzheJJ8th1fkeQFU1Fn1waY965Jvp/koSQnTkWNXRtgzke193hFkmuT7DkVdXZpgDkf0ua7PMmyJPtNRZ1dGm/Ofe32TrI2yeEbs77JMMD7vH+Se9v7vDzJ/5qKOrs0yPvc5r08yc1JrtjYNXZtgPf5/X3v8ar2+3u7zgqoKn/8GegHmAX8K/Bs4PHATcBuw9q8DvguEOBFwA+muu6NNO+nAnsDHwdOnOqaN9Kc9wWe1F6/drq/1wPOeWseebRiD+CWqa57sufc1+4y4DvA4VNd90Z4n/cHLpjqWjfynLcFfgjMbdtPneq6J3vOw9q/AbisyxpcwdJE7AP8pKp+WlW/Ab4MHDKszSHAF6vnOmDbJDts7EI7Nu68q+qeqloK/HYqCpwEg8z52qr6Zdu8DnjmRq6xa4PM+VfV/jQGtgKm+0Osg/w3DXAC8FXgno1Z3CQZdM6bkkHmfCTwtar6N+j9mbaRa+zaRN/nPwXO7bIAA5YmYkfg3/u272j7JtpmutkU5zSeic75bfRWLqezgeac5I1JbgG+DRy3kWqbLOPOOcmOwBuBMzZiXZNp0N/bL05yU5LvJtl945Q2aQaZ83OAJyVZnOT6JG/ZaNVNjoH/DEuyJfAaen+J6Iyf5K6JyAj7hv8NfpA2082mOKfxDDznJK+gF7Cm+/NIA825qr4OfD3Jy4CTgQMmu7BJNMicTwP+uqrWJiM1n3YGmfMN9L4C5VdJXgd8A9hlsgubRIPMeTNgL+BVwBOA7ye5rqp+PNnFTZKJ/Ln9BuCaqvpFlwUYsDQRdwB/1Lf9TODODWgz3WyKcxrPQHNOsgdwFvDaqvp/G6m2yTKh97mqrkyyU5KnVNV0/R63QeY8BHy5haunAK9L8nBVfWOjVNi9cedcVff1vf5OktNnwPt8B/DzqnoAeCDJlcCewHQNWBP57/nNdHx7ELxFqIlZCuyS5FlJHk/vN+U3h7X5JvCW9q8JXwTcW1V3bexCOzbIvDc14845yVzga8DR0/hvuf0GmfPOaUmj/QvZxwPTOViOO+eqelZVzauqecD5wJ9P43AFg73PT+97n/eh9//KTfp9Bv4FeGmSzdotsxcCP9rIdXZpoD+3k8wBXk5v/p1yBUsDq6qHk7wbuIjev9A4u6puTvLOdvwMev/K6HXAT4BfA2+dqnq7Msi8kzwdWAY8EViX5L30/sXKfaP1+4dswPf6fwFPBk5v/y96uKbxF8YOOOfD6P0F4rfAg8DCvofep50B57xJGXDOhwPvSvIwvff5zZv6+1xVP0pyIbACWAecVVWrpq7qx2YCv7ffCFzcVu465Se5S5IkdcxbhJIkSR0zYEmSJHXMgCVJktQxA5YkSVLHDFiSJEkdM2BJmvGSrE2yvO9n3gb0cWiS3SahPJI8I8n5k9H3GGPOb59iLmkD+DlYkgQPVtX8x9jHocAFwA8HPSHJZlX18HjtqupOep/NtFEk2QyYT+9T3L+zscaVNiWuYEnSCJLsleSK9sW3FyXZoe1/R5Kl7YuAv5pkyyT7AgcDp7YVsJ3al+YOtXOekuT29vrYJOcl+RZwcZKtkpzd+rwxySEj1DIvyaq+87+R5FtJVid5d5K/bOdel2S71m5xktOSXJtkVftEcpJs185f0drv0faflOTMJBcDXwQ+Cixs81mYZJ/W143t1+f21fO1JBcmuS3J3/bV/ZokN7RrdWnbN+58pU2BK1iSBE9Isry9Xg38d+BzwCFV9Z9JFgIfB44DvlZVXwBI8jHgbVX1uSTfBC6oqvPbsbHGezGwR1X9IskngMuq6rgk2wJLklwyzidLPw9YAMym960Jf11VC5L8PfAWel/QDLBVVe2b3hdTn93O+whwY1UdmuSV9MLU/NZ+L2C/qnowybHAUFW9u83nicDL2idkHwB8gt4n29POXwA8BNya5HPAGuAL7ZzV64Mf8OENmK807RiwJGnYLcIkz6MXRr7XgtIsYP13aj6vBattga3pfRXHRH2vqn7RXh8IHJzkxLY9G5jL2N8Dd3lV3Q/cn+Re4Ftt/0pgj75258Lvvpj6iS3Q7EcLRlV1WZInp/d9bADfrKoHRxlzDvBPSXYBCti879ilVXUvQJIfAn8MPAm4sqpWt7Eey3ylaceAJUmPFuDmqnrxCMfOAQ6tqpvaKs/+o/TxMI88hjF72LH+1ZoAh1XVrROo76G+1+v6ttfx+3+uD/8utGrjDbe+3VirSCfTC3ZvbP8IYPEo9axtNWSE8WHD5itNOz6DJUmPdiuwfZIXAyTZPMnu7dg2wF1JNgeO6jvn/nZsvdvp3XKDsR9Qvwg4IW2pLMmCx17+7yxsfe4H3NtWma6k1Z1kf+Dno3wp+fD5zAF+1l4fO8DY3wdenuRZbaz1twgnc77SHwwDliQNU1W/oReKPpXkJmA5sG87/DfAD4DvAbf0nfZl4P3twe2dgE8D70pyLfCUMYY7md7tthXtQfaTO5zKL9v4ZwBva/tOAoaSrABOAY4Z5dzLgd3WP+QO/C3wySTX0LtlOqaq+k/geOBr7Rp+pR2azPlKfzBSNdIKriRpOkuyGDixqpZNdS3STOQKliRJUsdcwZIkSeqYK1iSJEkdM2BJkiR1zIAlSZLUMQOWJElSxwxYkiRJHTNgSZIkdez/A2XB+XHQy9YEAAAAAElFTkSuQmCC\n"},"metadata":{"needs_background":"light"}}]},{"cell_type":"markdown","source":"We can save confusion matrix.","metadata":{}},{"cell_type":"code","source":"from sklearn.metrics import (\n ConfusionMatrixDisplay,\n accuracy_score,\n classification_report,\n confusion_matrix,\n f1_score,\n)\n# add metrics to our model card\naccuracy = accuracy_score(y_test, y_pred)\nf1 = f1_score(y_test, y_pred, average=\"micro\")\nmodel_card.add_metrics(**{\"accuracy\": accuracy, \"f1 score\": f1})","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:41.422503Z","iopub.execute_input":"2022-12-01T13:23:41.422904Z","iopub.status.idle":"2022-12-01T13:23:41.436927Z","shell.execute_reply.started":"2022-12-01T13:23:41.422867Z","shell.execute_reply":"2022-12-01T13:23:41.435224Z"},"trusted":true},"execution_count":23,"outputs":[{"execution_count":23,"output_type":"execute_result","data":{"text/plain":"Card(\n model=DecisionTreeClassifier(random_state=0),\n metadata.library_name=sklearn,\n metadata.tags=['sklearn', 'skops', 'tabular-classification'],\n metadata.model_file=model.pkl,\n metadata.widget={...},\n model_description='This is a Decisi...cancer dataset and pruned with CCP.',\n limitations='This model is trained for educational purposes.',\n Feature Importances='feature_importances.png',\n Tree Splits='tree.png',\n)"},"metadata":{}}]},{"cell_type":"code","source":"cm = confusion_matrix(y_test, y_pred, labels=tree.classes_)\ndisp = ConfusionMatrixDisplay(confusion_matrix=cm, display_labels=tree.classes_)\ndisp.plot()\n# save the figure to repo\ndisp.figure_.savefig(Path(local_repo) / \"confusion_matrix.png\")\n# write the figure to model card\nmodel_card.add_plot(**{\"Confusion Matrix\": \"confusion_matrix.png\"})","metadata":{"_kg_hide-output":true,"execution":{"iopub.status.busy":"2022-12-01T13:23:44.711392Z","iopub.execute_input":"2022-12-01T13:23:44.711727Z","iopub.status.idle":"2022-12-01T13:23:44.947598Z","shell.execute_reply.started":"2022-12-01T13:23:44.711697Z","shell.execute_reply":"2022-12-01T13:23:44.945571Z"},"trusted":true},"execution_count":24,"outputs":[{"execution_count":24,"output_type":"execute_result","data":{"text/plain":"Card(\n model=DecisionTreeClassifier(random_state=0),\n metadata.library_name=sklearn,\n metadata.tags=['sklearn', 'skops', 'tabular-classification'],\n metadata.model_file=model.pkl,\n metadata.widget={...},\n model_description='This is a Decisi...cancer dataset and pruned with CCP.',\n limitations='This model is trained for educational purposes.',\n Feature Importances='feature_importances.png',\n Tree Splits='tree.png',\n Confusion Matrix='confusion_matrix.png',\n)"},"metadata":{}},{"output_type":"display_data","data":{"text/plain":"
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\n"},"metadata":{"needs_background":"light"}}]},{"cell_type":"markdown","source":"We can now save the model card and push our repository to 🤗Hub!","metadata":{}},{"cell_type":"code","source":"model_card.save(Path(local_repo) / \"README.md\")","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:53.269801Z","iopub.execute_input":"2022-12-01T13:23:53.270182Z","iopub.status.idle":"2022-12-01T13:23:53.327379Z","shell.execute_reply.started":"2022-12-01T13:23:53.270150Z","shell.execute_reply":"2022-12-01T13:23:53.326180Z"},"trusted":true},"execution_count":25,"outputs":[]},{"cell_type":"markdown","source":"We will now push the model to 🤗Hub. For this, we firstly need to authenticate ourselves. Then, we can push our model!","metadata":{}},{"cell_type":"code","source":"from huggingface_hub import notebook_login\nnotebook_login()","metadata":{"execution":{"iopub.status.busy":"2022-12-01T13:23:54.521519Z","iopub.execute_input":"2022-12-01T13:23:54.521921Z","iopub.status.idle":"2022-12-01T13:23:54.578232Z","shell.execute_reply.started":"2022-12-01T13:23:54.521883Z","shell.execute_reply":"2022-12-01T13:23:54.576764Z"},"trusted":true},"execution_count":26,"outputs":[{"output_type":"display_data","data":{"text/plain":"VBox(children=(HTML(value='