update
This commit is contained in:
commit
41380fbfcf
@ -1,7 +1,7 @@
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{
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"name": "react_bs_web",
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"private": true,
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"proxy": "http://localhost:5173",
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"proxy": "http://127.0.0.1:5000/",
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"version": "0.0.0",
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"type": "module",
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"scripts": {
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@ -10,7 +10,7 @@ const Hero = () => {
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const toggleDropdown = () => setIsOpen(!isOpen);
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const handleMinuteChange = (e) => setGameMinute(e.target.value);
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const [data,setData] = useState([{}])
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const [data, setData] = useState("");
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//zmienne globalne
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//zmienna mówiąca który przycisk jest aktywny, jest ona wykorzystywana
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//przez listener nanoszący zawodników na boisko. 1 - strzelec , 2 - bramkarz , 3 - obronca, 4 - napasnik. zmienna przez aktywacje przycskówk bb1, bb2, bb3 i bb4
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@ -108,10 +108,10 @@ const Hero = () => {
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var pName = "Bramkarz"
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var pColor = "#03e7fc"
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}else if(possition == 2){
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var pName = "Napastnik"
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var pName = "Obrońca"
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var pColor = "#0324fc"
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}else if (possition ==3){
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var pName = "Obrońca"
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var pName = "Napastnik"
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var pColor = "#fc6703"
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}
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var player = document.createElement('div');
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@ -189,6 +189,8 @@ const Hero = () => {
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ball.style.left = x + "%"
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ball.style.top = y + "%"
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}
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//var shooterX = konwerturX(ball.style.left)
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//var shooterY = konwetujY(ball.style.top)
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posytion.innerHTML = "x:" + konwerturX(ball.style.left) + "m " + "y:" + konwetujY(ball.style.top) + "m";
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bojo.addEventListener("mouseup", function(){
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ball.style.background = pColor
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@ -200,22 +202,38 @@ const Hero = () => {
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})
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}
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// Wyłanie zapytania do serwera
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// // Wyłanie zapytania do serwera
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function sentQuestion() {
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if (numer_od_shooters > 0) {
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fetch("http://localhost:5173/members").then
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(res => res.json()).then(res => {
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let token = res.token;
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console.log("token: ", token);
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})
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eX = data.response
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} else {
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alert('Piłka nie jest obecnie na boisku.');
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}
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var ball = document.querySelector('.football');
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if (ball) {
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// Użyj backticksów zamiast zwykłych cudzysłowów
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//console.log('Wysyłanie wartości: ', ball);
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shooterX = konwerturX(ball.style.left)
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shooterY = konwetujY(ball.style.top)
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console.log('Wysyłanie wartości: ', shooterX, shooterY);
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fetch(`http://127.0.0.1:5000/get_model?x=${shooterX}&y=${shooterY}`).then(
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res => res.json()
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).then(
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data => {
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setData(data);
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console.log(data);
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// Przenieś tę linię do środka bloku .then(), aby uniknąć błędów
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let eX = data.response;
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document.getElementById("ex").innerHTML = "Współczynnik xG: " + eX;
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}
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).catch(error => {
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console.error('Błąd:', error);
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});
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} else {
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alert('Piłka nie jest obecnie na boisku.');
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}
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}
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/* Funkcja dodająca listener do boiska*/
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function boiskoListener(ev){
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ev.preventDefault()
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@ -402,7 +420,7 @@ const Hero = () => {
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</div>
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<div>
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<b id = "ex" className="Ex">
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</b>
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</div>
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</div>
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Binary file not shown.
@ -3,9 +3,9 @@ import pandas as pd
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from math import sqrt
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# Funkcja zwraca prawdopodobieństwo zdobycia gola
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def LogisticRegression_predict_proba(position_x, position_y, angle, match_minute, Number_Intervening_Opponents, Number_Intervening_Teammates, isFoot, isHead):
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def LogisticRegression_predict_proba(position_x, position_y, distance_to_goalM, angle, match_minute, Number_Intervening_Opponents, Number_Intervening_Teammates, isFoot, isHead):
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distance_to_goalM = sqrt(( (position_x**2) + (position_y**2)))
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# distance_to_goalM = sqrt(( (position_x**2) + (position_y**2)))
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model = load('regresja_logistyczna.joblib')
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X_new = pd.DataFrame(columns=['position_x', 'position_y', 'distance_to_goalM', 'angle','match_minute', 'Number_Intervening_Opponents','Number_Intervening_Teammates', 'isFoot', 'isHead'])
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@ -13,3 +13,80 @@ def LogisticRegression_predict_proba(position_x, position_y, angle, match_minute
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return model.predict_proba(X_new)[0][1].round(2)
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#kolejne modele
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def xgboost_predict_proba(minute, position_name, shot_body_part_name, shot_technique_name,
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shot_type_name, shot_first_time, shot_one_on_one,
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shot_aerial_won, shot_deflected, shot_open_goal,
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shot_follows_dribble, shot_redirect, x1, y1,
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number_of_players_opponents, number_of_players_teammates,
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angle, distance, x_player_opponent_Goalkeeper,
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x_player_opponent_8, x_player_opponent_1, x_player_opponent_2,
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x_player_opponent_3, x_player_teammate_1, x_player_opponent_4,
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x_player_opponent_5, x_player_opponent_6, x_player_teammate_2,
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x_player_opponent_9, x_player_opponent_10, x_player_opponent_11,
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x_player_teammate_3, x_player_teammate_4, x_player_teammate_5,
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x_player_teammate_6, x_player_teammate_7, x_player_teammate_8,
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x_player_teammate_9, x_player_teammate_10,
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y_player_opponent_Goalkeeper, y_player_opponent_8,
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y_player_opponent_1, y_player_opponent_2, y_player_opponent_3,
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y_player_teammate_1, y_player_opponent_4, y_player_opponent_5,
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y_player_opponent_6, y_player_teammate_2, y_player_opponent_9,
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y_player_opponent_10, y_player_opponent_11, y_player_teammate_3,
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y_player_teammate_4, y_player_teammate_5, y_player_teammate_6,
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y_player_teammate_7, y_player_teammate_8, y_player_teammate_9,
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y_player_teammate_10, x_player_opponent_7, y_player_opponent_7,
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x_player_teammate_Goalkeeper, y_player_teammate_Goalkeeper,
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shot_kick_off):
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model = load('xgboost.joblib')
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X_new = pd.DataFrame(columns=['minute', 'position_name', 'shot_body_part_name', 'shot_technique_name',
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'shot_type_name', 'shot_first_time', 'shot_one_on_one',
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'shot_aerial_won', 'shot_deflected', 'shot_open_goal',
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'shot_follows_dribble', 'shot_redirect', 'x1', 'y1',
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'number_of_players_opponents', 'number_of_players_teammates',
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'angle', 'distance', 'x_player_opponent_Goalkeeper',
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'x_player_opponent_8', 'x_player_opponent_1', 'x_player_opponent_2',
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'x_player_opponent_3', 'x_player_teammate_1', 'x_player_opponent_4',
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'x_player_opponent_5', 'x_player_opponent_6', 'x_player_teammate_2',
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'x_player_opponent_9', 'x_player_opponent_10', 'x_player_opponent_11',
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'x_player_teammate_3', 'x_player_teammate_4', 'x_player_teammate_5',
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'x_player_teammate_6', 'x_player_teammate_7', 'x_player_teammate_8',
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'x_player_teammate_9', 'x_player_teammate_10',
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'y_player_opponent_Goalkeeper', 'y_player_opponent_8',
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'y_player_opponent_1', 'y_player_opponent_2', 'y_player_opponent_3',
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'y_player_teammate_1', 'y_player_opponent_4', 'y_player_opponent_5',
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'y_player_opponent_6', 'y_player_teammate_2', 'y_player_opponent_9',
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'y_player_opponent_10', 'y_player_opponent_11', 'y_player_teammate_3',
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'y_player_teammate_4', 'y_player_teammate_5', 'y_player_teammate_6',
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'y_player_teammate_7', 'y_player_teammate_8', 'y_player_teammate_9',
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'y_player_teammate_10', 'x_player_opponent_7', 'y_player_opponent_7',
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'x_player_teammate_Goalkeeper', 'y_player_teammate_Goalkeeper',
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'shot_kick_off'])
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X_new.loc[len(X_new.index)] = [minute, position_name, shot_body_part_name, shot_technique_name,
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shot_type_name, shot_first_time, shot_one_on_one,
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shot_aerial_won, shot_deflected, shot_open_goal,
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shot_follows_dribble, shot_redirect, x1, y1,
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number_of_players_opponents, number_of_players_teammates,
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angle, distance, x_player_opponent_Goalkeeper,
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x_player_opponent_8, x_player_opponent_1, x_player_opponent_2,
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x_player_opponent_3, x_player_teammate_1, x_player_opponent_4,
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x_player_opponent_5, x_player_opponent_6, x_player_teammate_2,
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x_player_opponent_9, x_player_opponent_10, x_player_opponent_11,
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x_player_teammate_3, x_player_teammate_4, x_player_teammate_5,
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x_player_teammate_6, x_player_teammate_7, x_player_teammate_8,
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x_player_teammate_9, x_player_teammate_10,
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y_player_opponent_Goalkeeper, y_player_opponent_8,
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y_player_opponent_1, y_player_opponent_2, y_player_opponent_3,
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y_player_teammate_1, y_player_opponent_4, y_player_opponent_5,
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y_player_opponent_6, y_player_teammate_2, y_player_opponent_9,
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y_player_opponent_10, y_player_opponent_11, y_player_teammate_3,
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y_player_teammate_4, y_player_teammate_5, y_player_teammate_6,
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y_player_teammate_7, y_player_teammate_8, y_player_teammate_9,
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y_player_teammate_10, x_player_opponent_7, y_player_opponent_7,
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x_player_teammate_Goalkeeper, y_player_teammate_Goalkeeper,
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shot_kick_off]
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return model.predict_proba(X_new)[0][1].round(2)
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@ -1,36 +1,116 @@
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from flask import Flask
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from flask import Flask, request, jsonify
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from flask_cors import CORS
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from modele.modele import LogisticRegression_predict_proba
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from modele.modele import LogisticRegression_predict_proba, xgboost_predict_proba
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import math
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app = Flask(__name__)
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CORS(app)
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app.config['CORS_HEADERS'] = 'Content-Type'
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def loc2angle(x, y):
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rads = math.atan(7.32 * x / (x**2 + (y - 34)**2 - (7.32/2)**2))
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rads = math.pi + rads if rads < 0 else rads
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deg = math.degrees(rads)
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return deg
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def loc2distance(x, y):
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return math.sqrt(x**2 + (y - 34)**2)
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def loc2locdistance(x1, y1, x2, y2):
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return math.sqrt((x1 - x2)**2 + (y1 - y2)**2)
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# model Api
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<<<<<<< HEAD
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@app.route("/members")
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def members():
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return "dnjss"
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=======
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# @app.route("/members")
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# def members():
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# return{"members":["Member1","Member2","Member3"]}
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>>>>>>> 0b5e2681184a215a830217fb15fc4be882e06e8c
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# zapytanie o regresje logistyczną na podstawie pozycji piłki
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@app.route("/LRegresion<x>&<y>")
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def LRegresion(x,y):
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# @app.route("/LRegresion<x>&<y>")
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@app.route("/get_model", methods = ['GET'])
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# def get_model():
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x = int(x[0:2])
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y = int(y[0:2])
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# # x = int(x[0:2])
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# # y = int(y[0:2])
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# x = request.args.get('x', type=float)
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# y = request.args.get('y', type=float)
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# ## change model on xgboost
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# ## add angle, match minutes and number of players
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# angle = loc2angle(x = x, y = y)
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# dist = loc2distance(x = x, y = y)
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# if y is None and x is None:
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# return jsonify({"error": "Brak wymaganych parametrów"}), 400
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# response = xgboost_predict_proba(minute = 20, position_name, shot_body_part_name, shot_technique_name,
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# shot_type_name, shot_first_time, shot_one_on_one,
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# shot_aerial_won, shot_deflected, shot_open_goal,
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# shot_follows_dribble, shot_redirect, x1 = x, y1 = y,
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# number_of_players_opponents, number_of_players_teammates,
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# angle = angle, distance = dist, x_player_opponent_Goalkeeper,
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# x_player_opponent_8, x_player_opponent_1, x_player_opponent_2,
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# x_player_opponent_3, x_player_teammate_1, x_player_opponent_4,
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# x_player_opponent_5, x_player_opponent_6, x_player_teammate_2,
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# x_player_opponent_9, x_player_opponent_10, x_player_opponent_11,
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# x_player_teammate_3, x_player_teammate_4, x_player_teammate_5,
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# x_player_teammate_6, x_player_teammate_7, x_player_teammate_8,
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# x_player_teammate_9, x_player_teammate_10,
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# y_player_opponent_Goalkeeper, y_player_opponent_8,
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# y_player_opponent_1, y_player_opponent_2, y_player_opponent_3,
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# y_player_teammate_1, y_player_opponent_4, y_player_opponent_5,
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# y_player_opponent_6, y_player_teammate_2, y_player_opponent_9,
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# y_player_opponent_10, y_player_opponent_11, y_player_teammate_3,
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# y_player_teammate_4, y_player_teammate_5, y_player_teammate_6,
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# y_player_teammate_7, y_player_teammate_8, y_player_teammate_9,
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# y_player_teammate_10, x_player_opponent_7, y_player_opponent_7,
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# x_player_teammate_Goalkeeper, y_player_teammate_Goalkeeper,
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# shot_kick_off)
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# #print(x)
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# #print(y)
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# #print(response)
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# res = str(response)
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# #return {"response":res}
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# return jsonify({"response":res})
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def get_model():
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# x = int(x[0:2])
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# y = int(y[0:2])
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x = request.args.get('x', type=float)
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y = request.args.get('y', type=float)
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## change model on xgboost
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## add angle, match minutes and number of players
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angle = loc2angle(x = x, y = y)
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dist = loc2distance(x = x, y = y)
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if y is None and x is None:
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return jsonify({"error": "Brak wymaganych parametrów"}), 400
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response = LogisticRegression_predict_proba(position_x=x,
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position_y=y,
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angle = 13.67,
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distance_to_goalM = dist,
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angle = angle,
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match_minute=13,
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Number_Intervening_Opponents=3,
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Number_Intervening_Teammates=0,
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isFoot=1,
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isHead=0)
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print(x)
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print(y)
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print(response)
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return {"response":[str(response)]}
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#print(x)
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#print(y)
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#print(response)
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res = str(response)
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#return {"response":res}
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return jsonify({"response":res})
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# uruchomienie serwera
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if __name__ == "__main__":
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@ -114,7 +114,7 @@ loc2angle <- function(x, y) {
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# distance to goal
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loc2distance <- function(x, y) {
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sqrt(x^2 + y^2)
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sqrt(x^2 + (y - 34)^2)
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}
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# distance between two points on the pitch
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@ -345,5 +345,5 @@ cols <- names(data3_final)[grepl(pattern, names(data3_final))]
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data_final <- data3_final %>% unnest(all_of(cols))
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skimr::skim(data_final)
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write_csv(data_final, file = "data/final_data.csv")
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# df_test <- read.csv("data/final_data.csv", nrows = 100)
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df_test <- read.csv("data/final_data.csv", nrows = 1000)
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##################### The fourth dataset ##############################
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|
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Loading…
Reference in New Issue
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